CN112399262B

CN112399262B - Video searching method, television and storage medium

Info

Publication number: CN112399262B
Application number: CN202011200593.8A
Authority: CN
Inventors: 赖长明; 徐永澤; 薛凯文; 陈志诚; 孙志杰; 韦泽垠
Original assignee: Shenzhen TCL New Technology Co Ltd
Current assignee: Shenzhen TCL New Technology Co Ltd
Priority date: 2020-10-30
Filing date: 2020-10-30
Publication date: 2024-02-06
Anticipated expiration: 2040-10-30
Also published as: CN112399262A

Abstract

The invention discloses a video searching method, a television and a storage medium, wherein the method comprises the following steps: when a display instruction is received, displaying a full-volume video visualization interface with dimensions corresponding to the display instruction, wherein a plurality of video icons corresponding to videos one by one are displayed on the full-volume video visualization interface, and the similarity of videos corresponding to the video icons and videos corresponding to other video icons is gradually reduced along the direction away from any video icon in the full-volume video visualization interface; when a search instruction is received, acquiring keywords in the search instruction; acquiring matching areas in a currently displayed full-volume video visual interface or full-volume video visual interfaces of other dimensions according to the keywords; and displaying the matching area. The invention solves the problem that the relevance among videos in the search results cannot be intuitively reflected when the video search results obtained based on the traditional search engine are displayed in a list form.

Description

Video searching method, television and storage medium

Technical Field

The present invention relates to the field of smart televisions, and in particular, to a video searching method, a television, and a computer readable storage medium.

Background

Video services are a very large market, with many movie providers on the market today. They all have the ability to provide massive video resources such as Netflix, tencent video, millet, and harshness. Many smart televisions now provide video on demand services, and video on demand platforms will also provide conventional video search services in concert for users to search movies. Although the search services are fully functional, the search services are based on the traditional search engine, and the search results are displayed in a list form and cannot intuitively reflect the relevance among videos in the search results.

Disclosure of Invention

The invention mainly aims to provide a video searching method, a television and a computer readable storage medium, and aims to solve the problem that the relevance among videos in the searching results cannot be intuitively reflected when the existing video searching results obtained based on the traditional searching engine are displayed in a list form.

In order to achieve the above object, the present invention provides a video searching method, comprising the steps of:

when a display instruction is received, displaying a full-volume video visual interface with dimensions corresponding to the display instruction according to the display instruction, wherein the full-volume video visual interface is displayed with a plurality of video icons corresponding to videos one by one, and the similarity of videos corresponding to the video icons and videos corresponding to other video icons in the full-volume video visual interface is gradually reduced along the direction away from any video icon;

When a search instruction is received, acquiring keywords in the search instruction;

acquiring matching areas in a currently displayed full-volume video visual interface or full-volume video visual interfaces of other dimensions according to the keywords;

and displaying the matching area.

Optionally, the step of obtaining the matching area in the currently displayed full-volume video visualization interface or the full-volume video visualization interface of other dimensions according to the keyword includes:

judging whether the keyword is a video name or a category label;

if the keyword is a video name, taking the area, which is currently displayed and corresponds to the video name, of the video icons and other video icons adjacent to the video icon corresponding to the video name in the full-volume video visualization interface as a matching area;

and if the keyword is a category label, taking the currently displayed full-volume video visualization interface or a region with the maximum density of the video corresponding to the category label in the full-volume video visualization interface corresponding to other dimensions as a matching region.

Optionally, after the step of displaying the full-volume video visualization interface corresponding to the display instruction according to the display instruction, the method further includes:

When a video dimension switching instruction is received, a category label interface is displayed, wherein the category label interface displays a plurality of category labels corresponding to the currently selected video icon;

when any category label selected in the category label interface is received, acquiring all video icons in which the distance between the video icon and the currently selected video icon in the full-scale video visualization interface corresponding to the dimension to which the selected category label belongs is smaller than or equal to a preset threshold value;

and displaying all the acquired video icons.

Optionally, after the step of displaying the full-scale video visualization interface corresponding to the display instruction according to the display instruction, the method further includes:

when a visual interface switching instruction is received, displaying a dimension switching interface, wherein the dimension switching interface displays a plurality of dimension labels;

and when receiving one dimension label selected in the dimension switching interface, switching to a full-scale video visualization interface corresponding to the selected dimension label.

when a neighborhood display instruction is received, displaying a neighborhood display quantity setting interface;

And when the display quantity set in the neighborhood display quantity setting interface is received, carrying out ascending sort according to the distance between each video icon in the currently displayed full-quantity video visualization interface and the currently selected video icon, and displaying the video icons with the top display quantity in the distance sorting result.

and when receiving the playing instruction, playing the video corresponding to the currently selected video icon.

Optionally, the step of displaying the full-volume video visualization interface corresponding to the display instruction according to the display instruction includes:

and when a scaling instruction or a moving instruction is received, scaling the currently displayed full-volume video visual interface according to the scaling instruction, or moving the currently displayed full-volume video visual interface according to the moving instruction.

Optionally, the video searching method further includes:

acquiring the mapping time and/or the heat value of the video corresponding to each video icon in the full video visualization interface;

sorting according to the sequence of the showing time of each video, selecting a first preset number of videos after the ranking from the showing time sorting result, and/or sorting according to the heat value of each video, and selecting a second preset number of videos before the ranking from the heat sorting result as a first target video;

And amplifying the video icon corresponding to the first target video in the full-volume video visual interface corresponding to each dimension by a preset multiple and/or adding a mark at the position of the video icon corresponding to the first target video in the full-volume video visual interface corresponding to each dimension.

Optionally, the video searching method further includes:

acquiring a user history viewing record of a video corresponding to each video icon in a full-scale video visualization interface, wherein the user history viewing record comprises a user history viewing accumulated time length, a user viewing accumulated time number and/or a final playing time of the video;

selecting a second preset number of videos as second target videos according to the user history watching records of the videos and preset screening conditions;

and amplifying the video icons corresponding to the second target video in the full-scale video visualization interface corresponding to each dimension by a preset multiple and/or adding marks at the positions of the video icons corresponding to the second target video in the full-scale video visualization interface corresponding to each dimension.

To achieve the above object, the present invention also provides a television including a memory, a processor, and a computer program stored on the memory and executable on the processor, which when executed by the processor, implements the steps of the video search method as described above.

To achieve the above object, the present invention also provides a computer-readable storage medium having stored thereon a computer program which, when executed by a processor, implements the steps of the video search method as described above.

According to the video searching method, the television and the computer readable storage medium, when a display instruction is received, a full-volume video visualization interface with dimensions corresponding to the display instruction is displayed according to the display instruction, a plurality of video icons corresponding to videos one by one are displayed on the full-volume video visualization interface, and the similarity of videos corresponding to the video icons and videos corresponding to other video icons is gradually reduced along the direction away from any video icon in the full-volume video visualization interface; when a search instruction is received, acquiring keywords in the search instruction; acquiring matching areas in a currently displayed full-volume video visual interface or full-volume video visual interfaces of other dimensions according to the keywords; and displaying the matching area. The distance between one video icon and the other video icon in the full-volume video visual interface is longer, the similarity and the correlation between videos corresponding to the two video icons are lower, the search result obtained according to the keywords is a matching area corresponding to the keywords in the full-volume video visual interface, the matching area is a part of the full-volume video visual interface, the similarity and the correlation between videos in the search result can be clearly known through visual observation of the distance between the video icons in the matching area, and the videos corresponding to the search result can be rapidly positioned to the surrounding area of the matching area according to the matching area, so that the user can be more intelligently guided by demands.

Drawings

FIG. 1 is a schematic diagram of a hardware operating environment according to an embodiment of the present invention;

FIG. 2 is a flowchart of a video searching method according to a first embodiment of the present invention;

fig. 3 is a schematic diagram of a refinement flow of step S30 in the first embodiment of the video search method according to the present invention;

FIG. 4 is a flowchart of a video searching method according to a second embodiment of the present invention;

FIG. 5 is a flowchart of a third embodiment of a video searching method according to the present invention;

FIG. 6 is a flowchart of a video searching method according to a fourth embodiment of the present invention;

FIG. 7 is a flowchart of a video searching method according to a fifth embodiment of the present invention;

FIG. 8 is a flowchart of a video searching method according to a sixth embodiment of the present invention;

FIG. 9 is a flowchart of a video searching method according to a seventh embodiment of the present invention;

FIG. 10 is a flowchart of an eighth embodiment of a video searching method according to the present invention;

FIGS. 11a-11b are schematic diagrams showing interface displays after triggering a search instruction according to the present invention;

FIG. 12 is a diagram showing an interface after triggering a neighborhood display instruction according to the present invention;

fig. 13a, 13b and 13c are schematic diagrams of interface change when triggering up and down movement command, interface change when triggering zoom-out command and interface change when triggering zoom-in command according to the present invention respectively;

FIG. 14 is a schematic diagram of a user operating a full-scale video visualization interface using a compound interaction approach in an embodiment of the present invention.

The achievement of the objects, functional features and advantages of the present invention will be further described with reference to the accompanying drawings, in conjunction with the embodiments.

Detailed Description

It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

Referring to fig. 1, fig. 1 is a schematic diagram of a hardware structure of a television according to various embodiments of the present invention. The television comprises a communication module 01, a memory 02, a processor 03 and the like. Those skilled in the art will appreciate that the television shown in fig. 1 may also include more or fewer components than shown, or may combine certain components, or may have a different arrangement of components. The processor 03 is connected to the memory 02 and the communication module 01, respectively, and a computer program is stored in the memory 02 and executed by the processor 03 at the same time.

The communication module 01 is connectable to an external device via a network. The communication module 01 can receive data sent by external equipment, and can also send data, instructions and information to the external equipment, wherein the external equipment can be electronic equipment such as a mobile phone, a tablet personal computer, a notebook computer, a desktop computer and the like.

The memory 02 is used for storing software programs and various data. The memory 02 may mainly include a storage program area and a storage data area, where the storage program area may store an operating system, an application program required by at least one function (acquiring a matching area in a full-volume video visualization interface currently displayed or a full-volume video visualization interface of other dimensions according to the keyword), and the like; the storage data area may store data or information created according to the use of the television, etc. In addition, memory 02 may include high-speed random access memory, and may also include non-volatile memory, such as at least one magnetic disk storage device, flash memory device, or other volatile solid-state storage device.

The processor 03, which is a control center of the television, connects various parts of the entire television using various interfaces and lines, performs various functions of the television and processes data by running or executing software programs and/or modules stored in the memory 02, and calling data stored in the memory 02, thereby performing overall monitoring of the television. The processor 03 may include one or more processing units; preferably, the processor 03 may integrate an application processor and a modem processor, wherein the application processor mainly processes an operating system, a user interface, an application program, etc., and the modem processor mainly processes wireless communication. It will be appreciated that the modem processor described above may not be integrated into the processor 03.

Although not shown in fig. 1, the television may further include a circuit control module, where the circuit control module is used to connect with a mains supply to implement power control, and ensure normal operation of other components.

Those skilled in the art will appreciate that the television structure shown in fig. 1 is not limiting and may include more or fewer components than shown, or may combine certain components, or a different arrangement of components.

According to the above hardware structure, various embodiments of the method of the present invention are presented.

Referring to fig. 2, in a first embodiment of the video searching method of the present invention, the video searching method includes the steps of:

step S10, when a display instruction is received, displaying a full-volume video visualization interface corresponding to the dimension of the display instruction according to the display instruction, wherein the full-volume video visualization interface is displayed with a plurality of video icons corresponding to videos one by one, the similarity of videos corresponding to the video icons and videos corresponding to other video icons in the full-volume video visualization interface is gradually reduced along the direction away from any video icon;

in this embodiment, the video searching method is applied to a television, and the television stores a full-scale video visualization interface in advance to generate an intelligent algorithm model. Each video includes a plurality of pieces of related information, for example, a movie "X1" includes a director A1 and a director A2, a director A3, a movie type (action film, love film or art film, etc.), and 4 pieces of related information of a movie production, each piece of related information has a corresponding characteristic attribute, and a dimension refers to a characteristic attribute of each piece of related information of the video, for example, the related information of a certain piece of movie X1 is the director A1 and the director A2, and the dimension of the related information is an actor. The television can acquire a plurality of videos and video names, related information and video icons corresponding to the videos, wherein the related information comprises actor information, director information, type information, region information and the like, and the video icons can be static icons, such as video posters or images of a certain frame in the videos, or dynamic icons formed by continuous multi-frame images in the videos. After the relevant information of each video is obtained by the television, the relevant information is input into a preset intelligent algorithm model, the class labels corresponding to the preset dimensions are automatically matched for each video, for example, a movie X1 is obtained, the relevant information comprises actors A1 and A2, a director A3, an action piece and a region B, after the relevant information is input into the preset intelligent algorithm, class labels of the actor dimensions A1 and A2 are automatically generated for the X1, the class labels of the type dimensions are the action piece, the class labels of the region dimensions are the region B, and the class labels of the director dimension are the region A3.

The intelligent algorithm model also calculates similarity values between every two videos in each preset dimension respectively, sequences and corresponds video icons corresponding to each video according to the calculated similarity between every two videos in each dimension to form a full-scale video visual interface of each dimension, and the similarity between videos corresponding to the video icons in the full-scale video visual interface along the distance direction of any video icon in any video icon is gradually reduced. And a video may have two different class labels in the same dimension, for example, a video may be both an action piece and a war piece, that video has two class labels in a type dimension, so for a clustering center of each class label in the dimension on a full-scale video visualization interface, the intelligent algorithm model also calculates the relevance of each video to each class label, and the higher the relevance of the video to a class label, the closer the video icon of the video is to the clustering center of the class label, so that with any video icon as a center, for a plurality of video icons with the same distance as the video icon, the video icons may have the same class label, and may also have the same class label.

After the full-volume video visual interface of each dimension is generated, when a user needs a television to display a full-volume video visual interface, the user triggers a display instruction and sends the display instruction to the television, and when the television receives the display instruction triggered by the user, the television displays the full-volume video visual interface corresponding to the received display instruction according to the received display instruction. The display instruction triggered by the user may include a dimension selected by the user or may not be selected by the user, if the display instruction includes the dimension selected by the user, the television displays the full-volume video visual interface corresponding to the dimension selected by the user when receiving the display instruction, if the display instruction does not include the dimension selected by the user, the television may randomly display the full-volume video visual interface corresponding to one dimension or display the full-volume video visual interface displayed last time when receiving the display instruction, or display the full-volume video visual interface with the highest preset priority according to the preset priority of the full-volume video visual interface of each dimension.

The user triggering display instruction can be specifically triggered by sending voice, for example, the user sends the content as 'I want to watch video', after receiving the voice content, the television starts the function of the full-scale video visual interface, then the user sends the voice with the content of 'search A1 film' to the television, the television recognizes that the user intends to display the full-scale video visual interface of the actor dimension through the voice recognition function, and then the instruction of the full-scale video visual interface of the actor dimension is displayed on the display area of the television. The user triggering display instruction can be triggered by clicking at least one key on the key remote controller, can be triggered by specific touch actions on a touch remote controller with a touch display screen or other television display screens, can be triggered by specific gestures if an image acquisition module is arranged in the television, and can be identified by the television through the image acquisition module, and the current gesture corresponding display instruction of the user is determined according to the mapping relation between the preset gestures and the instructions.

Step S20, when a search instruction is received, acquiring keywords in the search instruction;

after the television displays the full video visualization interface according to the display instruction triggered by the user, when the user needs to search for videos, the user can trigger a search instruction through a key remote controller, a touch remote controller, a terminal with a touch screen, voice or gestures, for example, by clicking a search key on the key remote controller, the television automatically displays a search input box after receiving the search key clicked by the user, and the user inputs a keyword to be searched through clicking the key remote controller and then clicks a confirmation key. For example, the user automatically displays a search input box when clicking three or more touch areas of the touch remote controller or the terminal with the touch screen, inputs keywords to be searched by touching the remote controller, and then completes confirmation when clicking two or more touch areas of the touch remote controller or the terminal with the touch screen. For example, the user sends a voice of "i want to watch a movie of A4" to the television, and the television recognizes the voice content after receiving the voice, and obtains the instruction corresponding to the voice sent by the user currently as a search instruction, and the search keyword is "A4". For example, after the user five fingers are extended and the palm center is downward, the television can call up a search input box and input a soft keyboard after acquiring the gesture of the user through the camera module, and the user inputs 'A4' through the gesture control input soft keyboard.

Step S30, obtaining matching areas in a currently displayed full-volume video visual interface or full-volume video visual interfaces of other dimensions according to the keywords;

after the television obtains the keyword from the search instruction triggered by the user, the television searches the area matched with the keyword on the full-volume video visual interface displayed currently, or searches the area matched with the keyword in the full-volume video visual interfaces of other dimensions outside the full-volume video visual interface displayed currently.

Specifically, referring to fig. 3, fig. 3 is a detailed flow chart of step S30 in an embodiment of the present application, based on the above embodiment, step S30 includes:

step S31, judging whether the keyword is a video name or a category label;

step S32, if the keyword is a video name, taking the area including the video icon corresponding to the video name and other video icons adjacent to the video icon corresponding to the video name in the currently displayed full-scale video visualization interface as a matching area;

and step S33, if the keyword is a category label, taking the area with the highest density of the video corresponding to the category label in the currently displayed full-volume video visual interface or the full-volume video visual interface corresponding to other dimensions as a matching area.

In the scheme, after a television obtains a keyword from a search instruction triggered by a user, the television judges whether the keyword belongs to a video name or a category label, if the keyword is the video name, the position of a video icon corresponding to the video name is found from a full-scale video visualization interface displayed currently, and then the region comprising the video icon corresponding to the video name and other video icons adjacent to the video icon is used as a matching region corresponding to the keyword. If the keywords are category labels, the television searches the positions of all video icons corresponding to the category labels on the full-scale video visualization interface which is currently displayed, and determines a region with the maximum density of the videos corresponding to the category labels as a matching region corresponding to the keywords according to the position distribution of all video icons corresponding to the category labels. Or after determining that the keyword is a category label, the television firstly judges the dimension to which the category label belongs, then searches the positions of all video icons corresponding to the category label on a full-scale video visualization interface corresponding to the dimension to which the category label belongs, and determines an area with the largest density of videos corresponding to the category label as a matching area corresponding to the keyword according to the position distribution of all video icons corresponding to the category label, wherein videos which do not belong to the category label may exist in the area.

Step S40, displaying the matching area;

after the television searches the matching area corresponding to the keyword, the matching area is amplified and displayed or the boundary of the matching area is marked by using a colored line; if the keyword is a video name, the determined matching area is displayed in an enlarged manner, for example, the keyword is "xyz", the display effect is as shown in fig. 11a, and if the keyword is a category label, the determined matching area marks the boundary of the matching area by using a special mode, for example, a line thickening area in the drawing may be a special mode, wherein X13, X14, X15, X16, X17, X18, X19, X20 and X21 all represent different movies. The mark can also be marked by a colored line, and the color of the line can be a yellow dotted line, a red dotted line, a yellow solid line, a red solid line, or the like. For example, the keywords are action pieces, and the determined area is shown as a thick dotted rectangle in fig. 11 b; for another example, the keyword is comedy, and the determined area is as a thin dashed rectangular box in fig. 11 b.

When a display instruction is received, displaying a full-volume video visualization interface with dimensions corresponding to the display instruction according to the display instruction, wherein the full-volume video visualization interface is displayed with a plurality of video icons corresponding to videos one by one, the full-volume video visualization interface is provided with video icons which are gradually reduced in similarity with videos corresponding to other video icons along a direction away from any video icon; when receiving a search instruction, acquiring keywords in the search instruction; acquiring matching areas in a currently displayed full-volume video visual interface or full-volume video visual interfaces of other dimensions according to the keywords; and displaying the matching area. The distance between one video icon and the other video icon in the full-volume video visual interface is longer, the similarity and the correlation between videos corresponding to the two video icons are lower, the search result obtained according to the keywords is a matching area corresponding to the keywords in the full-volume video visual interface, the matching area is a part of the full-volume video visual interface, the similarity and the correlation between videos in the search result can be clearly known through visual observation of the distance between the video icons in the matching area, and the videos corresponding to the search result can be rapidly positioned to the surrounding area of the matching area according to the matching area, so that the user can be more intelligently guided by demands.

Further, referring to fig. 4, fig. 4 is a diagram showing a second embodiment of the video searching method according to the first embodiment of the video searching method, and in this embodiment, after step S10, the method further includes:

step S11, when a video dimension switching instruction is received, a category label interface is displayed, wherein the category label interface displays a plurality of category labels corresponding to the currently selected video icon;

step S12, when any category label selected in the category label interface is received, all video icons, of which the distances to the currently selected video icon are smaller than or equal to a preset threshold value, in a full-scale video visualization interface corresponding to the dimension to which the selected category label belongs are acquired;

and step S13, displaying all the acquired video icons.

After the television displays a full-volume video visual interface corresponding to a certain dimension, if a user needs to search for a video with higher similarity to the video in other dimensions than the dimension corresponding to the currently displayed full-volume video visual interface, after a certain video icon is currently selected, the user can trigger a video dimension switching instruction through a key remote controller, a touch remote controller, a terminal with a touch screen, voice or gesture by the user, for example, the user sends the video dimension switching instruction to the television by clicking a specific key corresponding to one video dimension switching instruction on the key remote controller; for example, the user presses the touch area 3s of the touch remote controller for a long time, and sends a video dimension switching instruction to the television; for example, when the user makes a 'Yes' gesture, the camera module of the television recognizes that the user makes the gesture, and determines that the user triggers a video dimension switching instruction of the currently selected video icon; for example, when the television recognizes the voice content of the received voice, it can recognize that the user triggers the video dimension switching instruction.

When the television determines that the user triggers the video dimension switching instruction, a category label interface of the currently selected video icon is displayed, wherein the category label interface comprises category labels of all dimensions of the video corresponding to the video icon, for example, the video corresponding to the currently selected video icon is X2, and the category label interface of the video comprises category labels of actor dimensions, namely A2 and A1, category label of director dimension, namely A3, and category label of region dimension, namely region B. The category label interface may be displayed in a pop-up window or may be displayed in full screen.

After the category label interface is displayed, a user can select any category label in the displayed category label interface, and the selection of the category label can be specifically performed through four up-down, left-right movement keys on the key remote controller, and correspondingly control the up-down, left-right movement of the selection frame. Until the selection frame moves to the position of the category label to be selected by the user, then clicking a confirmation key on the key remote controller to determine the selected category label; the user can also select the category label by sliding up and down and left and right in a touch area of a touch remote controller or a terminal with a touch screen, correspondingly controlling the selection frame to move up and down and left and right until the selection frame moves to the position of the category label to be selected by the user, and then double-clicking the touch area to confirm the selection of the category label where the current selection frame is positioned; the user can also select the category label by making a preset gesture corresponding to the up-down and left-right movement, and correspondingly controlling the selection frame to move up-down and left-right until the selection frame moves to the position of the category label to be selected by the user, and then the user selects and confirms the category label where the current selection frame is positioned by making a preset gesture corresponding to the confirmation instruction; the user can also select the category label by sending a voice command corresponding to the up-down and left-right movement, and the corresponding control selection frame moves up-down and left-right until the selection frame moves to the position of the category label to be selected by the user, and then the user performs selection confirmation on the category label where the current selection frame is positioned by sending a preset voice command corresponding to the confirmation command.

When the television receives any category label selected by the user in the category label interface, the television firstly determines the dimension of the selected category label, then determines the position of the currently selected video icon in the full-scale video visualization interface corresponding to the dimension of the selected category label, and then takes the currently selected video icon as a center point to acquire all video icons with the distance from the currently selected video icon being less than or equal to a preset threshold value, including the currently selected video icon. And finally, amplifying and displaying all the obtained video icons or displaying the video icons in a full screen mode with a preset amplifying rate. For example, the user selects category labels "A2 and A1" corresponding to the actor dimensions from the category label interface corresponding to the "X2", the television obtains all video icons with the distance from the video icon of the "X11" being less than or equal to a preset threshold value on the full-volume video visualization interface corresponding to the actor dimensions, and then displays the obtained video icons with a preset magnification or displays the obtained video icons in a full screen, and most of the videos corresponding to the obtained video icons are commonly played by A2 and A1.

According to the method and the device for searching the video, through switching the category labels of the selected video icons, other videos which are the same as a dimension label of a certain video can be quickly searched, and the intellectualization of searching and the experience of a user are improved.

Further, referring to fig. 5, fig. 5 is a schematic diagram showing a third embodiment of the video searching method according to the first and second embodiments of the video searching method, and in this embodiment, after step S10, the method further includes:

step S14, when a visual interface switching instruction is received, displaying a dimension switching interface, wherein the dimension switching interface displays a plurality of dimension labels;

and S15, switching to a full-volume video visualization interface corresponding to the selected dimension label when receiving the selected dimension label in the dimension switching interface.

After the television displays the full-volume video visual interface corresponding to a certain dimension, if the user needs to display the full-volume video visual interface of other dimensions except the dimension corresponding to the current full-volume video visual interface, the user can trigger a visual interface switching instruction through a key remote controller, a touch remote controller, a terminal with a touch screen, voice or gesture, for example, the user sends the visual interface switching instruction to the television by clicking a specific key corresponding to one visual interface switching instruction on the key remote controller; for example, the user presses the touch area 5s of the touch remote controller for a long time, and a visual interface switching instruction is sent to the television; for example, when the user makes a fist making gesture, and when the camera module of the television recognizes that the user makes the fist making gesture, the user can be determined to trigger a visual interface switching instruction; for example, when the television recognizes the voice content of the received voice, it can recognize that the user triggers the visual interface switching instruction.

When the television determines that the user triggers the visual interface switching instruction, a dimension switching interface is displayed, wherein the dimension switching interface comprises a plurality of dimension labels, for example, the dimension switching interface comprises three dimension labels of actors, directors and regions. The dimension switching interface can be displayed in a popup window or in a full screen.

After the dimension switching interface is displayed, a user can select any one dimension label in the displayed dimension switching interface, and the selection of the dimension label can be specifically performed through four up-down, left-right movement keys on the key remote controller, so that the selection frame is correspondingly controlled to move up-down, left-right. Until the selection frame moves to the position of the dimension label to be selected by the user, then clicking a confirmation key on the key remote controller to determine the selected dimension label; the user can also select the dimension label by sliding up and down and left and right in the touch area of the touch remote controller or the terminal with the touch screen, correspondingly controlling the selection frame to move up and down and left and right until the selection frame moves to the position of the dimension label to be selected by the user, and then double-clicking the touch area to confirm the selection of the dimension label where the current selection frame is positioned; the user can also select the dimension label by making a preset gesture corresponding to the up-down and left-right movement, and correspondingly controlling the selection frame to move up-down and left-right until the selection frame moves to the position of the dimension label to be selected by the user, and then the user selects and confirms the dimension label where the current selection frame is positioned by making a preset gesture corresponding to the confirmation instruction; the user can also select the dimension label by sending a voice command corresponding to the up-down and left-right movement, and the corresponding control selection frame moves up-down and left-right until the selection frame moves to the position of the dimension label to be selected by the user, and then the user performs selection confirmation on the dimension label where the current selection frame is positioned by sending a preset voice command corresponding to the confirmation command.

And when the television receives any dimension label selected by the user in the dimension switching interface, the television is switched to the full-volume video visualization interface corresponding to the selected dimension label. For example, when the user selects the dimension label as the actor in the dimension switching interface, the television switches to the full-scale video visualization interface corresponding to the actor dimension.

According to the embodiment, the dimension switching function of the visual interface is set, so that the rapid switching among the full-volume video visual interfaces of all dimensions is realized.

Further, referring to fig. 6, fig. 6 is a diagram showing a fourth embodiment of the video searching method according to the foregoing embodiment of the video searching method, and in this embodiment, after step S10, the method further includes:

step S16, when a neighborhood display instruction is received, displaying a neighborhood display quantity setting interface;

and S17, when the display quantity set in the neighborhood display quantity setting interface is received, carrying out ascending sort according to the distance between each video icon in the currently displayed full-quantity video visualization interface and the currently selected video icon, and displaying the video icons with the quantity displayed before the ranking in the distance sorting result.

After the television displays a full-volume video visual interface corresponding to a certain dimension, if a user needs to search other video icons around a certain video icon in the full-volume video visual interface currently displayed, after a certain video icon is currently selected, the user can trigger a neighborhood display instruction through a key remote controller, a touch remote controller, a terminal with a touch screen, voice or gesture, for example, the user can send the neighborhood display instruction to the television by clicking a specific key corresponding to one neighborhood display instruction on the key remote controller; for example, the user slides out a Z-shaped track on a touch area of a touch remote controller or a terminal with a touch screen, and sends a neighborhood display instruction to the television; for example, when the camera module of the television recognizes that the user makes a gesture, the user determines that the user triggers a neighborhood display instruction of the currently selected video icon; for example, when the television recognizes the voice content of the received voice, the user can be recognized to trigger the neighborhood display instruction.

When the television determines that the user triggers the neighborhood display instruction, a neighborhood display quantity setting interface is displayed, and the user sets the display quantity in the neighborhood display quantity setting interface. When the neighborhood display quantity setting interface comprises a plurality of preset display quantities, a user can correspondingly control the selection frame to move up and down and left and right through four up and down and left and right moving keys on the key remote controller. Until the selection frame moves to the display quantity to be selected by the user, then clicking a confirmation key on the key remote controller to determine the selected display quantity, or correspondingly controlling the selection frame to move up and down and left and right by adopting up and down and left and right sliding in a touch area of the touch remote controller or a terminal with a touch screen until the selection frame moves to the display quantity to be selected by the user, and then clicking the touch area for carrying out selection confirmation on the display quantity of the current selection frame; the user can also select and confirm the display quantity of the current selection frame by making a preset gesture corresponding to the confirmation instruction; the user can also select the display quantity by sending a voice command corresponding to the up-down and left-right movement, and the corresponding control selection frame moves up-down and left-right until the selection frame moves to the position of the display quantity to be selected by the user, and then the user selects and confirms the display quantity of the current selection frame by sending a preset voice command corresponding to the confirmation command. The user sets the display quantity in a neighborhood display quantity setting interface by directly inputting the display quantity, and the display quantity can be input by voice, key remote control, touch remote control or other terminals interacting with the television.

After receiving the display quantity set by the user in the neighborhood display quantity setting interface, determining the position of the currently selected video icon in the currently displayed full-quantity video visualization interface, then taking the currently selected video icon as a central point, acquiring the distance between each video icon in the currently displayed full-quantity video visualization interface and the currently selected video icon, wherein the acquired distance comprises the distance between the currently selected video icon and the television, the distance is 0, ascending sort is performed to obtain a distance sorting result, the video icons with the number displayed before the rank are selected from the distance sorting result, the video icons with the number displayed before the rank necessarily comprise the currently selected video icon in the distance sorting result, and finally amplifying display or full-screen display are performed on all the selected video icons with preset amplifying magnification. For example, fig. 12 is a display interface triggered based on the "X3" neighborhood display instruction, the currently displayed full-volume video visual interface is a full-volume video visual interface corresponding to the type dimension, the currently selected video icons are video icons of "X3", the number set by the user is 10, the television will acquire the video icons with the distances from the video icons of "X3" being ranked ten in the order from small to large on the currently displayed visual interface, and then display the acquired video icons with a preset magnification or full screen, wherein the videos corresponding to the acquired video icons and the video icons of "X3" are all motion type videos, and the videos corresponding to the acquired video icons are "X4" and "X5", etc.

According to the embodiment, the neighborhood display function is set for the full-volume video visual interface, and the user can display the video icon of a certain video adjacent area on the full-volume video visual interface which is being displayed for the user by triggering the neighborhood display function, so that the video icon of the adjacent area where any video icon is located can be rapidly positioned and displayed, and the experience of the user is improved.

Further, referring to fig. 7, fig. 7 is a diagram showing a fifth embodiment of the video searching method according to the foregoing embodiment of the video searching method, and in this embodiment, after step S10, the method further includes:

step S18, when receiving a playing instruction, playing the video corresponding to the currently selected video icon.

After the television displays the full-volume video visual interface corresponding to a certain dimension, if the user needs to play the video corresponding to a certain video icon in the full-volume video visual interface currently displayed. The user can trigger a playing instruction through a key remote controller, a touch remote controller, a terminal with a touch screen, voice or gesture to play the video corresponding to the currently selected video icon, and when the television receives the playing instruction, the television can acquire the audio and video data of the video corresponding to the currently selected video icon to play.

For example, the user needs to play X6, and before sending a play instruction, the user correspondingly controls the selection frame to move up, down, left and right through four up, down, left and right moving keys on the key remote controller. Until the selection frame moves to the video icon of X6, the user sends the playing instruction to the television by clicking a specific key corresponding to a playing instruction on the key remote controller, and when the television receives the playing instruction, the television acquires the audio and video data of X6 and plays the audio and video data; for example, the user can correspondingly control the selection frame to move up and down and left and right by sliding up and down and left and right in a touch area of the touch remote controller or the terminal with the touch screen until the selection frame moves to the video icon of X6, and the user can send a playing instruction to the television by clicking at two different positions of the touch area at the same time, and the television can acquire the audio and video data of X6 when receiving the playing instruction to play; for example, the user makes a preset gesture corresponding to up-down and left-right movement, and the corresponding control selection frame moves up-down and left-right until the selection frame moves to the video icon of X6, then the user makes a five-finger opening gesture corresponding to a playing instruction, and after the camera module of the television recognizes that the user makes the five-finger opening gesture, the camera module can acquire audio and video data of X6 and play the five-finger opening gesture; for example, by sending a voice command corresponding to the up-down and left-right movement, the corresponding control selection frame moves up-down and left-right until the selection frame moves to the video icon of "X6", the user sends a "play" voice, when the television identifies the voice content of the received voice, the user can be identified to trigger the play command, and when the television receives the play command, the television can acquire the audio and video data of "X6" to play.

According to the embodiment, the user can directly play the corresponding video by directly triggering the playing instruction to the video icons in the full-volume video visual interface, so that the starting playing speed is improved, and the user experience is improved.

Further, referring to fig. 8, fig. 8 is a diagram showing a sixth embodiment of the video searching method according to the foregoing embodiment of the video searching method, and in this embodiment, after step S10, the method further includes:

step S19, when a scaling instruction or a moving instruction is received, scaling the currently displayed full-volume video visual interface according to the scaling instruction, or moving the currently displayed full-volume video visual interface according to the moving instruction.

After the television displays the full-volume video visual interface corresponding to a certain dimension, when a user needs to move the currently displayed full-volume video visual interface, the user triggers a movement instruction through a key remote controller, a touch remote controller, a terminal with a touch screen, voice or a gesture, wherein the movement instruction is any one of an upward movement instruction, a downward movement instruction, a leftward movement instruction and a rightward movement instruction, and when the television receives the movement instruction, the television moves the currently displayed full-volume video visual interface according to the movement instruction.

After the television displays the full-volume video visual interface corresponding to a certain dimension, when the user needs to zoom the full-volume video visual interface currently displayed, the user triggers a zoom instruction through a key remote controller, a touch remote controller, a terminal with a touch screen, voice or a gesture, the zoom is any one of the zoom instruction and the zoom instruction, when the television receives the zoom instruction, the television zooms in and displays the full-volume video visual interface currently displayed, or when the mobile television receives the zoom instruction, the full-volume video visual interface currently displayed is zoomed out and displayed, for example, as shown in fig. 13a, the current displayed interface is upwards moved by utilizing the upward sliding of a finger on the touch screen of the terminal with the touch screen, the current displayed interface is downwards moved by utilizing the downward sliding of the finger, for example, as shown in fig. 13b, the current displayed interface is inwards zoomed out by utilizing two fingers on the touch screen of the terminal with the touch screen, for example, as shown in fig. 13c, the current displayed interface is zoomed out by utilizing two fingers on the touch screen of the terminal with the touch screen, and the current displayed interface is zoomed in.

It should be noted that, according to the needs of the user, the operation instruction of the full-volume video visual interface related to the foregoing embodiment may include one or more of a search instruction, a neighborhood display instruction, a video dimension switching instruction, a visual interface switching instruction, and a movement instruction and a scaling instruction of the full-volume video visual interface related to the present embodiment to locate a desired video icon, and the interaction operation that triggers these instructions may be a combination of several interaction modes. For example, as shown in fig. 14, a search instruction that "i want to watch action film" is sent by voice to trigger a keyword as "action film" is first used, so that the television terminal displays an area related to the action film in the full video visualization interface, then the voice is used to send "1-fold enlargement of the interface" to trigger a zoom instruction, so that the television terminal enlarges the currently displayed interface by 1-fold, and then a gesture corresponding to rightward movement is used to trigger a rightward movement instruction, so that the television terminal moves the currently displayed interface rightward, thereby facilitating the user to find the video to watch.

According to the embodiment, the zoom and move functions are set for the full-volume video visual interface, so that a user can randomly explore video icons of any area in the full-volume video visual interface and randomly explore local video icon distribution conditions and whole video icon distribution conditions of the full-volume video visual interface by triggering a move instruction or a zoom instruction, and the user experience is improved.

Further, referring to fig. 9, fig. 9 is a diagram showing a seventh embodiment of the video searching method according to the foregoing embodiment of the video searching method, in the embodiment, the video searching method includes the steps of:

step S50, obtaining the mapping time and/or the heat value of the video corresponding to each video icon in the full-scale video visualization interface;

step S60, sorting is carried out according to the mapping time sequence of each video, a first preset number of videos after the ranking are selected from the mapping time sorting result, and/or sorting is carried out according to the heat value of each video, and a second preset number of videos before the ranking are selected from the heat sorting result to serve as first target videos;

step S70, amplifying the video icons corresponding to the first target video in the full-volume video visualization interface corresponding to each dimension by a preset multiple and/or adding marks at the positions of the video icons corresponding to the first target video in the full-volume video visualization interface corresponding to each dimension.

After the television generates the full-scale video visualization interface of each dimension, the mapping time and/or the heat value of the video corresponding to each video icon in the full-scale video visualization interface are obtained, the heat value of the video is obtained based on network big data, the mapping time of each video is ordered according to the sequence, the ordering result of the mapping time is obtained, a first preset number of videos after being ordered are selected from the ordering result to serve as first target videos, and/or the ordering is carried out according to the heat value of each video, a second preset number of videos before being ordered are selected from the heat ordering result to serve as first target videos, then the video icon corresponding to the first target video in the full-scale video visualization interface corresponding to each dimension is enlarged by a preset multiple and/or marks, such as text marks "new", are added to the positions of the video icons corresponding to the first target video in the full-scale video visualization interface corresponding to each dimension, and a color boundary frame is added to mark the video icons. For example, the 4 videos which are newly displayed are respectively "X4", "X6", "X7" and "X8", the 3 videos with the highest heat are respectively "X9", "X10" and "X11" according to the order of the heat values, the 7 videos are taken as the first target video, then the video icons corresponding to "X4" and "X6" are displayed in a magnification manner in the full-scale video visualization interface corresponding to each dimension, the "new" text is added at the video icons corresponding to "X7" and "X8", and the "hot" text is added at the video icons corresponding to "X9", "X10" and "X11". These added labels are displayed with the full video visualization interface when displayed.

After the television acquires at least one new video, the video icons of the video and related information, respectively calculating similarity values between the new video and videos corresponding to all video icons on the generated full-scale video visualization interface in all dimensions by an information preset algorithm of the video; and then adding the video icon corresponding to the new video into the generated full-volume video visual interface corresponding to each dimension according to the similarity value between the new video and other stored videos in each dimension and the similarity value between the other stored videos, and updating the full-volume video visual interface of each dimension.

When the method is needed to be described, the scheme of the embodiment is suitable for adding marks for the latest video and/or the hottest video on the full-scale video visualization interface under the condition that the user adopts the full-scale video visualization interface in the method for the first time, and guiding the user.

According to the embodiment, the mark is added to the latest video and/or the hottest video on the full video visualization interface, so that the guiding effect that a user searches and knows the latest video is achieved, and the problem of cold starting of the article is solved. Further, referring to fig. 10, fig. 10 is a diagram showing an eighth embodiment of the video searching method according to the foregoing embodiment of the video searching method, in the embodiment, the video searching method includes the steps of:

Step S80, obtaining a user history viewing record of videos corresponding to all video icons in a full-scale video visualization interface, wherein the user history viewing record comprises user history viewing accumulated time length, user viewing accumulated times and/or final playing time of the videos;

step S90, selecting a second preset number of videos as second target videos according to the user history viewing records of the videos and preset screening conditions;

step S100, amplifying the video icons corresponding to the second target video in the full-volume video visualization interface corresponding to each dimension by a preset multiple and/or adding marks at the positions of the video icons corresponding to the second target video in the full-volume video visualization interface corresponding to each dimension.

After the television generates the full-volume video visualization interface of each dimension, the television also obtains the user history viewing records of videos corresponding to each video icon in the full-volume video visualization interface, wherein the user history viewing records can be local user history viewing records or history viewing records of all users in the same area as the local user, and the same area can be all users, the same city, the same province, the same country or the like with the distance from the local user in a preset distance range. The user history viewing record comprises a user history viewing accumulated time length, a user viewing accumulated time and/or a last time of viewing of the user, then a third preset number of videos are screened out as second target videos according to the user history viewing record of each video, and the preset screening condition can be that the user viewing accumulated time length is from the third preset number of videos before in the at least more sorting results, the user viewing accumulated time length is from the third preset number of videos before in the at least more sorting results and/or the third preset number of videos before in the last playing time of each video from late to early sorting results. And then after the second target video is obtained, amplifying the video icon corresponding to the second target video in the full-scale video visualization interface corresponding to each dimension by a preset multiple and/or adding a mark, such as adding a text mark "hot", at the position of the video icon corresponding to the second target video in the full-scale video visualization interface corresponding to each dimension, and marking the video icon by adding a colored bounding box. For example, the preset screening condition is that the local user views the top 7 videos with the most accumulated times, the top 7 videos in the sorting result with the most accumulated times are respectively 'X7', 'X8', 'X9', 'X11', 'X10', 'X11', and 'X12', the 7 videos are taken as the second target videos, then the video icons corresponding to the top 3 videos are amplified and displayed in the full-scale video visualization interface corresponding to each dimension, and 'hot' words are added at the positions of the video icons corresponding to the videos with the ranks of 4-7. These added labels are displayed with the full video visualization interface when displayed.

It should be noted that, the present embodiment is more suitable for marking the full-scale video visualization interface based on the historical behavior of the user when the user has used the full-scale video visualization interface, that is, when the user has used the full-scale video visualization interface.

The embodiment adds marks for the videos historically watched by the user on the full-volume video visualization interface, so that the user is purposefully guided to search and know the videos around the videos historically watched according to the watching behaviors of the user.

The present invention also proposes a computer-readable storage medium on which a computer program is stored. The computer readable storage medium may be the Memory 02 in the television of fig. 1, or may be at least one of ROM (Read-Only Memory)/RAM (Random Access Memory ), magnetic disk, or optical disk, and the computer readable storage medium includes a plurality of information for causing the television to perform the method according to the embodiments of the present invention.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or system that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or system. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or system that comprises the element.

The foregoing embodiment numbers of the present invention are merely for the purpose of description, and do not represent the advantages or disadvantages of the embodiments.

From the above description of the embodiments, it will be clear to those skilled in the art that the above-described embodiment method may be implemented by means of software plus a necessary general hardware platform, but of course may also be implemented by means of hardware, but in many cases the former is a preferred embodiment.

The foregoing description is only of the preferred embodiments of the present invention, and is not intended to limit the scope of the invention, but rather is intended to cover any equivalents of the structures or equivalent processes disclosed herein or in the alternative, which may be employed directly or indirectly in other related arts.

Claims

1. A video search method, comprising the steps of:

displaying the matching area, wherein the step of obtaining the matching area in the currently displayed full-volume video visual interface or the full-volume video visual interface of other dimensions according to the keyword comprises the following steps:

judging whether the keyword is a video name or a category label;

if the keyword is a category label, taking a region with the highest density of the video corresponding to the category label in the currently displayed full-volume video visual interface or the full-volume video visual interface corresponding to other dimensions as a matching region, wherein the step of displaying the full-volume video visual interface corresponding to the display instruction according to the display instruction further comprises:

When any category label selected in the category label interface is received, all video icons in which the distance between the video icons and the currently selected video icon is smaller than or equal to a preset threshold value in a full-scale video visualization interface corresponding to the dimension to which the selected category label belongs are acquired, wherein the dimension comprises an actor dimension, a type dimension, a region dimension and a director dimension;

and displaying all the acquired video icons.

2. The video searching method according to claim 1, wherein after the step of displaying the full-scale video visualization interface corresponding to the dimension of the display instruction according to the display instruction, further comprising:

3. The video searching method according to claim 1, wherein after the step of displaying the full-scale video visualization interface corresponding to the dimension of the display instruction according to the display instruction, further comprising:

receiving the display quantity set in the neighborhood display quantity setting interface;

and carrying out ascending sort according to the distance between each video icon in the currently displayed full-scale video visualization interface and the currently selected video icon, and displaying the video icons with the top ranking number in the distance sort result.

4. The video searching method according to claim 1, wherein after the step of displaying the full-scale video visualization interface corresponding to the dimension of the display instruction according to the display instruction, further comprising:

5. The video searching method according to claim 1, wherein the step of displaying the full-scale video visualization interface corresponding to the display instruction according to the display instruction comprises:

6. The video search method according to any one of claims 1 to 5, characterized in that the video search method further comprises:

sorting according to the sequence of the showing time of each video, selecting a first preset number of videos after the ranking from the showing time sorting result, and/or sorting according to the hotness value of each video, and selecting a second preset number of videos before the ranking from the hotness sorting result as a first target video;

7. The video search method according to any one of claims 1 to 5, characterized in that the video search method further comprises:

8. A television comprising a memory, a processor and a computer program stored on the memory and executable on the processor, which when executed by the processor implements the steps of the video search method of any of claims 1 to 7.

9. A computer readable storage medium, characterized in that the computer readable storage medium has stored thereon a computer program which, when executed by a processor, implements the steps of the video search method according to any of claims 1 to 7.