CN111787388A - Display device - Google Patents
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- CN111787388A CN111787388A CN202010664929.XA CN202010664929A CN111787388A CN 111787388 A CN111787388 A CN 111787388A CN 202010664929 A CN202010664929 A CN 202010664929A CN 111787388 A CN111787388 A CN 111787388A
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
- H04N21/00—Selective content distribution, e.g. interactive television or video on demand [VOD]
- H04N21/40—Client devices specifically adapted for the reception of or interaction with content, e.g. set-top-box [STB]; Operations thereof
- H04N21/43—Processing of content or additional data, e.g. demultiplexing additional data from a digital video stream; Elementary client operations, e.g. monitoring of home network or synchronising decoder's clock; Client middleware
- H04N21/431—Generation of visual interfaces for content selection or interaction; Content or additional data rendering
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
- H04N21/00—Selective content distribution, e.g. interactive television or video on demand [VOD]
- H04N21/40—Client devices specifically adapted for the reception of or interaction with content, e.g. set-top-box [STB]; Operations thereof
- H04N21/41—Structure of client; Structure of client peripherals
- H04N21/4104—Peripherals receiving signals from specially adapted client devices
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
- H04N21/00—Selective content distribution, e.g. interactive television or video on demand [VOD]
- H04N21/40—Client devices specifically adapted for the reception of or interaction with content, e.g. set-top-box [STB]; Operations thereof
- H04N21/41—Structure of client; Structure of client peripherals
- H04N21/4104—Peripherals receiving signals from specially adapted client devices
- H04N21/4126—The peripheral being portable, e.g. PDAs or mobile phones
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
- H04N21/00—Selective content distribution, e.g. interactive television or video on demand [VOD]
- H04N21/40—Client devices specifically adapted for the reception of or interaction with content, e.g. set-top-box [STB]; Operations thereof
- H04N21/43—Processing of content or additional data, e.g. demultiplexing additional data from a digital video stream; Elementary client operations, e.g. monitoring of home network or synchronising decoder's clock; Client middleware
- H04N21/442—Monitoring of processes or resources, e.g. detecting the failure of a recording device, monitoring the downstream bandwidth, the number of times a movie has been viewed, the storage space available from the internal hard disk
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- Engineering & Computer Science (AREA)
- Multimedia (AREA)
- Signal Processing (AREA)
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Abstract
The display device that this application embodiment provided is provided with controller, display and rotating assembly. The controller stores the page refresh rate of the display device, when the rotating assembly drives the display to rotate, the controller responds to the display to start rotating, the controller can call the page refresh rate stored in advance, and draws the display page according to the page refresh rate, so that the drawing frequency of the display picture is matched with the page refresh rate of the display device, the display page watched by a user is ensured to be stably changed, and the problem of page shaking is avoided. Furthermore, in the process of rotation of the display, the display page drawn by the controller can rotate, the rotation angle of the display picture is the same as that of the display, and the rotation direction of the display page is opposite to that of the display, so that the display page watched by a user is always matched with the display direction of the display, and the user experience is better.
Description
Technical Field
The application relates to the technical field of rotating televisions, in particular to a display device.
Background
The smart television has an independent operating system and supports function expansion. Various application programs can be installed in the smart television according to the needs of the user, for example, social applications such as traditional video applications and short videos, and reading applications such as cartoons and books. The applications can display application pages by utilizing a screen of the smart television, and rich media resources are provided for the smart television. Meanwhile, the intelligent television can also perform data interaction and resource sharing with different terminals. For example, the smart television can be connected with a mobile phone through a wireless communication mode such as a local area network and bluetooth, so as to play resources in the mobile phone or directly project a screen to display a page on the mobile phone.
However, since the page ratios corresponding to different applications or media assets from different sources are different, the smart tv is often used to display pages with different ratios from the traditional video ratio. For example, video resources shot by a terminal such as a mobile phone are generally vertical media resources with aspect ratios of 9:16, 9:18, 3:4 and the like; and the pages provided by the reading application are vertical resources similar to the aspect ratio of the book. The aspect ratio of the display screen of the smart television is generally in a horizontal state of 16:9, 16:10 and the like, so when vertical media such as short videos, cartoons and the like are displayed through the smart television, a vertical display page cannot be normally displayed due to the fact that the page proportion is not matched with the display screen proportion. Generally, the vertical display page needs to be zoomed to display completely, which not only wastes the display space on the screen, but also brings bad user experience.
Disclosure of Invention
The application provides a display device to solve the technical problem of a traditional television.
The display device provided by the embodiment of the application comprises: a display; the rotating component is connected with the display and is configured to drive the display to rotate; a controller configured to: calling drawing parameters in response to the display starting to rotate, wherein the drawing parameters at least comprise a page refresh rate of the display device; and drawing a display page of the display according to the drawing parameters, wherein the drawing frequency of the display page is matched with the page refresh rate of the display equipment, the rotation angle of the display page is the same as that of the display, and the rotation direction is opposite.
The display device that this application embodiment provided is provided with controller, display and rotating assembly. The controller stores the page refresh rate of the display device, when the rotating assembly drives the display to rotate, the controller responds to the display to rotate, the controller can call the page refresh rate stored in advance, and draws the display page according to the page refresh rate, so that the drawing frequency of the display page is matched with the page refresh rate of the display device, the display page watched by a user is ensured to change stably, and the problem of page shaking is avoided. Furthermore, in the rotating process of the display, the display page drawn by the controller rotates, the rotation angle of the display page is the same as that of the display, and the rotation direction of the display page is opposite to that of the display, so that the display page watched by a user is always matched with the display direction of the display, and the user experience is better.
Drawings
In order to more clearly explain the technical solution of the present application, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious to those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.
Fig. 1A is an application scenario diagram of a display device according to the present application;
FIG. 1B is a rear view of a display device of the present application;
fig. 2 is a block diagram of a hardware configuration of a control apparatus according to the present application;
FIG. 3 is a block diagram of a hardware configuration of a display device according to the present application;
FIG. 4 is a block diagram of an architectural configuration of an operating system in a memory of a display device according to the present application;
FIG. 5A is a schematic view of a landscape orientation asset of the present application;
FIG. 5B is a schematic diagram of the present application showing directional assets displayed in a vertical screen;
FIG. 6 is a schematic diagram of a presentation page shown in accordance with one possible embodiment;
FIG. 7 is a schematic diagram showing a change of a page during rotation of the display;
FIG. 8 is a flow diagram illustrating operation of a display device according to one possible embodiment;
FIG. 9 shows T according to a possible embodimentθ,N-P.
Detailed Description
In order to make those skilled in the art better understand the technical solutions in the present application, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.
The rotary television is a novel intelligent television and mainly comprises a display and a rotary component. The display is connected to the support or the wall through the rotating assembly, and the display placing angle can be adjusted through the rotating assembly to achieve the purpose of rotation. Different display placement angles may accommodate animated pages of different aspect ratios, for example, in most cases the display is placed sideways to display video pages of movies, television shows, etc. having an aspect ratio of 16: 9. When a video page is a 9:16 aspect ratio page of short video, caricature, etc., the horizontally positioned display needs to zoom the page and display black areas on both sides of the display. Thus, the display can be positioned vertically by rotating the assembly to accommodate a 9:16 ratio video page.
The applications supported by the rotary television are numerous, so that a user can conveniently watch the television, and a starting signal source of the television can be appointed by setting a starting mode. For example, in order to obtain the viewing experience of a conventional television, a starting signal source of the television can be set as a live signal, so that the television directly enters a live state after being started. The user can set the starting signal source into any application program through the setting program. Because the display postures supported by different applications are different, the posture of the television at the time of starting up is adaptive to the application used as the starting-up signal source, and the page corresponding to the application of the starting-up signal source can be normally displayed.
However, when watching tv, the user can adjust the display posture of the rotating tv as required, and still keep the adjusted posture when turning off. For example, when a user watches a short video or a cartoon through a television, the user switches the screen to a vertically placed state and turns off the television in the vertically placed state. When the user starts the computer for the next time, the screen is in a vertically placed state, and if the starting signal source is set to be an application only supporting the horizontally placed state, the screen is not matched with the application of the starting signal source, and the screen cannot be correctly displayed. Therefore, the application provides a display device and a display method of an application interface.
In order to facilitate a user to display a target media asset detail page in different horizontal and vertical screen display directions of a display and to facilitate improvement of user viewing experience of a display device in different viewing states, embodiments of the present application provide a display device, a detail page display method, and a computer storage medium, where the display device is, for example, a rotating television. It should be noted that the method provided in this embodiment is not only applicable to the rotating television, but also applicable to other display devices, such as a computer, a tablet computer, and the like.
The term "module," as used in various embodiments of the present application, may refer to any known or later developed hardware, software, firmware, artificial intelligence, fuzzy logic, or combination of hardware and/or software code that is capable of performing the functionality associated with that element.
The term "remote control" as used in the embodiments of the present application refers to a component of an electronic device (such as the display device disclosed in the present application) that is capable of wirelessly controlling the electronic device, typically over a short distance. The component may typically be connected to the electronic device using infrared and/or Radio Frequency (RF) signals and/or bluetooth, and may also include functional modules such as WiFi, wireless USB, bluetooth, motion sensors, etc. For example: the hand-held touch remote controller replaces most of the physical built-in hard keys in the common remote control device with the user interface in the touch screen.
The term "gesture" as used in the embodiments of the present application refers to a user behavior used to express an intended idea, action, purpose, or result through a change in hand shape or an action such as hand movement.
The term "hardware system" used in the embodiments of the present application may refer to a physical component having computing, controlling, storing, inputting and outputting functions, which is formed by a mechanical, optical, electrical and magnetic device such as an Integrated Circuit (IC), a Printed Circuit Board (PCB) and the like. In various embodiments of the present application, a hardware system may also be generally referred to as a motherboard (motherboard) or a host chip or controller.
Referring to fig. 1A, an application scenario diagram of a display device according to some embodiments of the present application is provided. As shown in fig. 1A, the control apparatus 100 and the display device 200 may communicate with each other in a wired or wireless manner.
Among them, the control apparatus 100 is configured to control the display device 200, which may receive an operation instruction input by a user and convert the operation instruction into an instruction recognizable and responsive by the display device 200, serving as an intermediary for interaction between the user and the display device 200. Such as: the user operates the channel up/down key on the control device 100, and the display device 200 responds to the channel up/down operation.
The control device 100 may be a remote controller 100A, which includes infrared protocol communication or bluetooth protocol communication, and other short-distance communication methods, etc. to control the display apparatus 200 in a wireless or other wired manner. The user may input a user instruction through a key on a remote controller, voice input, control panel input, etc., to control the display apparatus 200. Such as: the user can input a corresponding control command through a volume up/down key, a channel control key, up/down/left/right moving keys, a voice input key, a menu key, a power on/off key, etc. on the remote controller, to implement the function of controlling the display device 200.
The control device 100 may also be an intelligent device, such as a mobile terminal 100B, a tablet computer, a notebook computer, and the like. For example, the display device 200 is controlled using an application program running on the smart device. The application program may provide various controls to a user through an intuitive User Interface (UI) on a screen associated with the smart device through configuration.
For example, the mobile terminal 100B may install a software application with the display device 200 to implement connection communication through a network communication protocol for the purpose of one-to-one control operation and data communication. Such as: the mobile terminal 100B may be caused to establish a control instruction protocol with the display device 200, and the functions of the physical keys as arranged by the remote control 100A may be implemented by operating various function keys or virtual controls of the user interface provided on the mobile terminal 100B. The audio and video content displayed on the mobile terminal 100B may also be transmitted to the display device 200, so as to implement a synchronous display function.
The display apparatus 200 may provide a network television function of a broadcast receiving function and a computer support function. The display device may be implemented as a digital television, a web television, an Internet Protocol Television (IPTV), or the like.
The display device 200 may be a liquid crystal display, an organic light emitting display, a projection device. The specific display device type, size, resolution, etc. are not limited.
The display apparatus 200 also performs data communication with the server 300 through various communication means. Here, the display apparatus 200 may be allowed to be communicatively connected through a Local Area Network (LAN), a Wireless Local Area Network (WLAN), and other networks. The server 300 may provide various contents and interactions to the display apparatus 200. By way of example, the display device 200 may send and receive information such as: receiving Electronic Program Guide (EPG) data, receiving software program updates, or accessing a remotely stored digital media library. The servers 300 may be a group or groups of servers, and may be one or more types of servers. Other web service contents such as a video on demand and an advertisement service are provided through the server 300.
In some embodiments, as shown in FIG. 1B, display device 200 includes a rotation assembly 276, a controller 250, a display 275, a terminal interface extending from a gap in the backplane, and a rotation assembly 276 coupled to the backplane, the rotation assembly 276 configured to rotate the display 275. From the front view angle of the display device, the rotating component 276 can rotate the display screen to the vertical screen display direction, that is, the vertical side length of the screen is greater than the horizontal side length, and can also rotate the screen to the horizontal screen display direction, that is, the horizontal side length of the screen is greater than the vertical side length.
Fig. 2 exemplarily provides a block diagram of the configuration of the control apparatus 100. As shown in fig. 2, the control device 100 includes a controller 110, a memory 120, a communicator 130, a user input interface 140, a user output interface 150, and a power supply 160.
The controller 110 includes a Random Access Memory (RAM)111, a Read Only Memory (ROM)112, a processor 113, a power-on interface, and a communication bus. The controller 110 is used to control the operation of the control device 100, as well as the internal components of the communication cooperation, external and internal data processing functions.
Illustratively, when an interaction of a user pressing a key disposed on the remote controller 100A or an interaction of touching a touch panel disposed on the remote controller 100A is detected, the controller 110 may control to generate a signal corresponding to the detected interaction and transmit the signal to the display device 200.
And a memory 120 for storing various operation programs, data and applications for driving and controlling the control apparatus 100 under the control of the controller 110. The memory 120 may store various control signal commands input by a user.
The communicator 130 enables communication of control signals and data signals with the display apparatus 200 under the control of the controller 110. Such as: the control apparatus 100 transmits a control signal (e.g., a touch signal or a control signal) to the display device 200 via the communicator 130, and the control apparatus 100 may receive the signal transmitted by the display device 200 via the communicator 130. The communicator 130 may include an infrared signal interface 131 and a radio frequency signal interface 132. For example: when the infrared signal interface is used, the user input instruction needs to be converted into an infrared control signal according to an infrared control protocol, and the infrared control signal is sent to the display device 200 through the infrared sending module. The following steps are repeated: when the rf signal interface is used, a user input command needs to be converted into a digital signal, and then the digital signal is modulated according to the rf control signal modulation protocol and then transmitted to the display device 200 through the rf transmitting terminal.
The user input interface 140 may include at least one of a microphone 141, a touch pad 142, a sensor 143, a key 144, and the like, so that a user can input a user instruction regarding controlling the display apparatus 200 to the control apparatus 100 through voice, touch, gesture, press, and the like.
The user output interface 150 outputs a user instruction received by the user input interface 140 to the display apparatus 200, or outputs an image or voice signal received by the display apparatus 200. Here, the user output interface 150 may include an LED interface 151, a vibration interface 152 generating vibration, a sound output interface 153 outputting sound, a display 154 outputting images, and the like. For example, the remote controller 100A may receive an output signal such as audio, video, or data from the user output interface 150 and display the output signal in the form of an image on the display 154, an audio on the sound output interface 153, or a vibration on the vibration interface 152.
And a power supply 160 for providing operation power support for each element of the control device 100 under the control of the controller 110. In the form of a battery and associated control circuitry.
A hardware configuration block diagram of the display device 200 is exemplarily provided in fig. 3. As shown in fig. 3, the display apparatus 200 may include a tuner demodulator 210, a communicator 220, a detector 230, an external device interface 240, a controller 250, a memory 260, a user interface 265, a video processor 270, a display 275, a rotating assembly 276, an audio processor 280, an audio output interface 285, and a power supply 290.
The rotating assembly 276 may include a driving motor, a rotating shaft, and the like. Wherein, the driving motor can be connected to the controller 250 and output the rotation angle under the control of the controller 250; one end of the rotation shaft is connected to a power output shaft of the driving motor, and the other end is connected to the display 275, so that the display 275 can be fixedly mounted on a wall or a bracket through the rotation member 276.
The rotating assembly 276 may also include other components, such as a transmission component, a detection component, and the like. Wherein, the transmission component can adjust the rotating speed and the torque output by the rotating component 276 through a specific transmission ratio, and can be in a gear transmission mode; the detection means may be composed of a sensor, such as an angle sensor, an attitude sensor, or the like, provided on the rotation shaft. These sensors may detect parameters such as the angle at which the rotating assembly 276 is rotated and transmit the detected parameters to the controller 250, so that the controller 250 can determine or adjust the state of the display apparatus 200 according to the detected parameters. In practice, rotating assembly 276 may include, but is not limited to, one or more of the components described above.
The tuner demodulator 210 receives the broadcast television signal in a wired or wireless manner, may perform modulation and demodulation processing such as amplification, mixing, and resonance, and is configured to demodulate, from a plurality of wireless or wired broadcast television signals, an audio/video signal carried in a frequency of a television channel selected by a user, and additional information (e.g., EPG data).
The tuner demodulator 210 is responsive to the user selected frequency of the television channel and the television signal carried by the frequency, as selected by the user and controlled by the controller 250.
The tuner demodulator 210 can receive a television signal in various ways according to the broadcasting system of the television signal, such as: terrestrial broadcasting, cable broadcasting, satellite broadcasting, internet broadcasting, or the like; and according to different modulation types, a digital modulation mode or an analog modulation mode can be adopted; and can demodulate the analog signal and the digital signal according to the different kinds of the received television signals.
In other exemplary embodiments, the tuning demodulator 210 may also be in an external device, such as an external set-top box. In this way, the set-top box outputs a television signal after modulation and demodulation, and inputs the television signal into the display apparatus 200 through the external device interface 240.
The communicator 220 is a component for communicating with an external device or an external server according to various communication protocol types. For example, the display apparatus 200 may transmit content data to an external apparatus connected via the communicator 220, or browse and download content data from an external apparatus connected via the communicator 220. The communicator 220 may include a network communication protocol module or a near field communication protocol module, such as a WIFI module 221, a bluetooth module 222, and a wired ethernet module 223, so that the communicator 220 may receive a control signal of the control device 100 according to the control of the controller 250 and implement the control signal as a WIFI signal, a bluetooth signal, a radio frequency signal, and the like.
The detector 230 is a component of the display apparatus 200 for collecting signals of an external environment or interaction with the outside. The detector 230 may include a sound collector 231, such as a microphone, which may be used to receive a user's sound, such as a voice signal of a control instruction of the user to control the display device 200; alternatively, ambient sounds may be collected that identify the type of ambient scene, enabling the display device 200 to adapt to ambient noise.
In some other exemplary embodiments, the detector 230, which may further include an image collector 232, such as a camera, a video camera, etc., may be configured to collect external environment scenes to adaptively change the display parameters of the display device 200; and the function of acquiring the attribute of the user or interacting gestures with the user so as to realize the interaction between the display equipment and the user.
In some other exemplary embodiments, the detector 230 may further include a light receiver for collecting the intensity of the ambient light to adapt to the display parameter variation of the display device 200.
In some other exemplary embodiments, the detector 230 may further include a temperature sensor, such as by sensing an ambient temperature, and the display device 200 may adaptively adjust a display color temperature of the image. For example, when the temperature is higher, the display apparatus 200 may be adjusted to display a color temperature of an image that is cooler; when the temperature is lower, the display device 200 may be adjusted to display a warmer color temperature of the image.
The external device interface 240 is a component for providing the controller 250 to control data transmission between the display apparatus 200 and an external apparatus. The external device interface 240 may be connected to an external apparatus such as a set-top box, a game device, a notebook computer, etc. in a wired/wireless manner, and may receive data such as a video signal (e.g., moving image), an audio signal (e.g., music), additional information (e.g., EPG), etc. of the external apparatus.
The external device interface 240 may include: a High Definition Multimedia Interface (HDMI) terminal 241, a Composite Video Blanking Sync (CVBS) terminal 242, an analog or digital Component terminal 243, a Universal Serial Bus (USB) terminal 244, a Component terminal (not shown), a red, green, blue (RGB) terminal (not shown), and the like.
The controller 250 controls the operation of the display device 200 and responds to the operation of the user by running various software control programs (such as an operating system and various application programs) stored on the memory 260.
As shown in FIG. 3, controller 250 includes Random Access Memory (RAM)251, Read Only Memory (ROM)252, graphics processor 253, processor 254, power on interface 255, and communication bus 256. The RAM251, the ROM252, the graphic processor 253, and the power interface 255 of the processor 254 are connected by a communication bus 256.
The ROM252 stores various system boot instructions. When the power-on signal is received, the display apparatus 200 starts to be powered on, and the processor 254 executes the system boot instruction in the ROM252 and copies the operating system stored in the memory 260 to the RAM251 to start running the boot operating system. After the start of the operating system is completed, the processor 254 copies the various applications in the memory 260 to the RAM251 and then starts running the various applications.
And a graphic processor 253 for generating various graphic objects such as icons, operation menus, and user input instruction display graphics, etc. The graphic processor 253 may include an operator for performing an operation by receiving various interactive instructions input by a user, and further displaying various objects according to display attributes; and a renderer for generating various objects based on the operator and displaying the rendered result on the display 275.
A processor 254 for executing operating system and application program instructions stored in memory 260. And according to the received user input instruction, processing of various application programs, data and contents is executed so as to finally display and play various audio-video contents.
In some demonstrative embodiments, processor 254 may include a plurality of processors. The plurality of processors may include one main processor and a plurality of or one sub-processor. A main processor for performing some initialization operations of the display device 200 in the display device preloading mode, and/or operations of the animation page in the normal mode. A plurality of or one sub-processor for performing an operation in a state of a standby mode or the like of the display apparatus.
The power-up interface 255 may include a first interface through an nth interface. These interfaces may be network interfaces that are connected to external devices via a network.
The controller 250 may control the overall operation of the display apparatus 200. For example: in response to receiving a user input command for selecting a GUI object displayed on the display 275, the controller 250 may perform an operation related to the object selected by the user input command.
Where the object may be any one of the selectable objects, such as a hyperlink or an icon. The operation related to the selected object is, for example, an operation of displaying a link to a hyperlink page, document, image, or the like, or an operation of executing a program corresponding to the object. The user input command for selecting the GUI object may be a command input through various input means (e.g., a mouse, a keyboard, a touch panel, etc.) connected to the display apparatus 200 or a voice command corresponding to a voice spoken by the user.
A memory 260 for storing various types of data, software programs, or applications for driving and controlling the operation of the display device 200. The memory 260 may include volatile and/or nonvolatile memory. And the term "memory" includes the memory 260, the RAM251 and the ROM252 of the controller 250, or a memory card in the display device 200.
In some embodiments, the memory 260 is specifically used for storing an operating program for driving the controller 250 of the display device 200; storing various application programs built in the display apparatus 200 and downloaded by a user from an external apparatus; data such as visual effect images for configuring various GUIs provided by the display 275, various objects related to the GUIs, and selectors for selecting GUI objects are stored.
In some embodiments, memory 260 is specifically configured to store drivers for tuner demodulator 210, communicator 220, detector 230, external device interface 240, video processor 270, display 275, audio processor 280, etc., and related data, such as external data (e.g., audio-visual data) received from the external device interface or user data (e.g., key information, voice information, touch information, etc.) received by the user interface.
In some embodiments, memory 260 specifically stores software and/or programs representing an Operating System (OS), which may include, for example: a kernel, middleware, an Application Programming Interface (API), and/or an application program. Illustratively, the kernel may control or manage system resources, as well as functions implemented by other programs (e.g., middleware, APIs, or applications); at the same time, the kernel may provide an interface to allow middleware, APIs, or applications to access the controller to enable control or management of system resources.
A block diagram of the architectural configuration of the operating system in the memory of the display device 200 is illustratively provided in fig. 4. The operating system architecture comprises an application layer, a middleware layer and a kernel layer from top to bottom.
The application layer, the application programs built in the system and the non-system-level application programs belong to the application layer. Is responsible for direct interaction with the user. The application layer may include a plurality of applications such as a setup application, a post application, a media center application, and the like. These applications may be implemented as Web applications that execute based on a WebKit engine, and in particular may be developed and executed based on HTML5, Cascading Style Sheets (CSS), and JavaScript.
Here, HTML, which is called hypertext Markup Language (hypertext Markup Language), is a standard Markup Language for creating web pages, and describes the web pages by Markup tags, where the HTML tags are used to describe characters, graphics, animation, sound, tables, links, etc., and a browser reads an HTML document, interprets the content of the tags in the document, and provides the content in the form of web pages.
CSS, known as Cascading Style Sheets (Cascading Style Sheets), is a computer language used to represent the Style of HTML documents, and may be used to define Style structures, such as fonts, colors, locations, etc. The CSS style can be directly stored in the HTML webpage or a separate style file, so that the style in the webpage can be controlled.
JavaScript, a language applied to Web page programming, can be inserted into an HTML page and interpreted and executed by a browser. The interaction logic of the Web application is realized by JavaScript. The JavaScript can package a JavaScript extension interface through the browser to realize communication with the kernel layer.
The middleware layer may provide some standardized interfaces to support the operation of various environments and systems. For example, the middleware layer may be implemented as multimedia and hypermedia information coding experts group (MHEG) middleware related to data broadcasting, DLNA middleware which is middleware related to communication with an external device, middleware which provides a browser environment in which each application program in the display device operates, and the like.
The kernel layer provides core system services, such as: file management, memory management, process management, network management, system security authority management and the like. The kernel layer may be implemented as a kernel based on various operating systems, for example, a kernel based on the Linux operating system.
The kernel layer also provides communication between system software and hardware, and provides device driver services for various hardware, such as: provide display driver for the display, provide camera driver for the camera, provide button driver for the remote controller, provide wiFi driver for the WIFI module, provide audio driver for audio output interface, provide power management drive for Power Management (PM) module etc..
In FIG. 3, user interface 265, receives various user interactions. Specifically, it is used to transmit an input signal of a user to the controller 250 or transmit an output signal from the controller 250 to the user. For example, the remote controller 100A may transmit an input signal, such as a power switch signal, a channel selection signal, a volume adjustment signal, etc., input by the user to the user interface 265, and then the input signal is transferred to the controller 250 through the user interface 265; alternatively, the remote controller 100A may receive an output signal such as audio, video, or data output from the user interface 265 via the controller 250, and display the received output signal or output the received output signal in audio or vibration form.
In some embodiments, a user may enter user commands on a Graphical User Interface (GUI) displayed on the display 275, and the user interface 265 receives the user input commands through the GUI. Specifically, the user interface 265 may receive user input commands for controlling the position of a selector in the GUI to select different objects or items. Among these, "user interfaces" are media interfaces for interaction and information exchange between an application or operating system and a user, which enable the conversion between an internal form of information and a form acceptable to the user. A common presentation form of the user interface is a Graphical User Interface (GUI), which refers to a user interface related to computer operations and displayed in a graphical manner. It may be an interface element such as an icon, a window, a control, etc. displayed in the display screen of the electronic device, where the control may include a visual interface element such as an icon, a control, a menu, a tab, a text box, a dialog box, a status bar, a channel bar, a Widget, etc.
Alternatively, the user may input a user command by inputting a specific sound or gesture, and the user interface 265 receives the user input command by recognizing the sound or gesture through the sensor.
The video processor 270 is configured to receive an external video signal, and perform video data processing such as decompression, decoding, scaling, noise reduction, frame rate conversion, resolution conversion, and image synthesis according to a standard codec protocol of the input signal, so as to obtain a video signal that is directly displayed or played on the display 275.
Illustratively, the video processor 270 includes a demultiplexing module, a video decoding module, an image synthesizing module, a frame rate conversion module, a display formatting module, and the like.
The demultiplexing module is configured to demultiplex an input audio/video data stream, where, for example, an input MPEG-2 stream (based on a compression standard of a digital storage media moving image and voice), the demultiplexing module demultiplexes the input audio/video data stream into a video signal and an audio signal.
And the video decoding module is used for processing the video signal after demultiplexing, including decoding, scaling and the like.
And the image synthesis module is used for carrying out superposition mixing processing on the GUI signal input by the user or generated by the user and the video image after the zooming processing by the graphic generator so as to generate an image signal for display.
The frame rate conversion module is configured to convert a frame rate of an input video, for example, convert a frame rate of an input 60Hz video into a frame rate of 120Hz or 240Hz, where a common format is implemented by using, for example, an interpolation frame method.
And a display formatting module for converting the signal output by the frame rate conversion module into a signal conforming to a display format of a display, such as converting the format of the signal output by the frame rate conversion module to output an RGB data signal.
A display 275 for receiving the image signal from the video processor 270 and displaying the video content, the image and the menu manipulation interface. The display video content may be from the video content in the broadcast signal received by the tuner-demodulator 210, or from the video content input by the communicator 220 or the external device interface 240. The display 275, while displaying a user manipulation interface UI generated in the display apparatus 200 and used to control the display apparatus 200.
And, the display 275 may include a display screen component for rendering pages and a driving component that drives the display of images. Alternatively, a projection device and projection screen may be included, provided display 275 is a projection display.
Rotating assembly 276, controller 250 may issue a control signal to cause rotating assembly 276 to rotate display 275.
The audio processor 280 is configured to receive an external audio signal, decompress and decode the received audio signal according to a standard codec protocol of the input signal, and perform noise reduction, digital-to-analog conversion, and amplification processing on the received audio signal to obtain an audio signal that can be played in the microphone 286.
Illustratively, audio processor 280 may support various audio formats. Such as MPEG-2, MPEG-4, Advanced Audio Coding (AAC), high efficiency AAC (HE-AAC), and the like.
The audio output interface 285 is used for receiving an audio signal output by the audio processor 280 under the control of the controller 250, and the audio output interface 285 may include a microphone 286 or an external sound output terminal 287, such as an earphone output terminal, for outputting to a generating device of an external device.
In other exemplary embodiments, video processor 270 may comprise one or more chips. Audio processor 280 may also comprise one or more chips.
And, in other exemplary embodiments, the video processor 270 and the audio processor 280 may be separate chips or may be integrated with the controller 250 in one or more chips.
And a power supply 290 for supplying power supply support to the display apparatus 200 from the power input from the external power source under the control of the controller 250. The power supply 290 may be a built-in power supply circuit installed inside the display apparatus 200 or may be a power supply installed outside the display apparatus 200.
Because the display device 200 provided by the present application includes the display 275 and the rotating component 276, the rotating component 276 can rotate the display 275, so that the display 275 can have different display orientations. Thus, in one implementation, the display direction may include a landscape display direction and a portrait display direction. Wherein the landscape display direction is a display direction in which the length (width) of the display 275 in the horizontal direction is greater than the length (height) of the display 275 in the vertical direction when viewed from the front of the display 275; the vertical screen display direction is a display direction in which the length (width) of the display 275 in the horizontal direction is smaller than the length (height) of the display 275 in the vertical direction when viewed from the front of the display 275.
Obviously, depending on the installation/placement position of the display device 200, the vertical direction is referred to as substantially vertical in the present application, and the horizontal direction is also referred to as substantially horizontal. The horizontal display direction is mainly used for displaying horizontal media such as a tv drama and a movie as shown in fig. 5A. The mode of operation when the display 275 is in the landscape orientation may be referred to as the landscape viewing mode, and the mode of operation when the display 275 is in the portrait orientation may be referred to as the portrait viewing mode. The controller 250 in the display device 200 is further communicatively connected to the server 300 for invoking an interface of the server 300 to obtain corresponding data. The display 275 in the display device 200 can be driven to rotate by the rotation assembly 276 and used to display a user interface. In practical applications, a user may control a play mode, play contents, and the like of the display apparatus 200 through the control device 100, wherein the play mode includes a landscape viewing mode and a portrait viewing mode.
The vertical screen display direction is mainly used for displaying vertical media such as short videos and cartoons, as shown in fig. 5B. In the vertical screen display direction, the display 275 may display the user interface corresponding to the vertical screen display direction and have an interface layout and an interaction mode corresponding to the vertical screen display direction. In the vertical screen media asset watching mode, a user can watch vertical screen media assets such as short videos and cartoons. Similarly, since the controller 250 in the display device 200 is further in communication connection with the server 300, the media asset data corresponding to the vertical screen can be acquired by calling the interface of the server 300 when the vertical screen displays the direction.
The vertical screen display direction is more suitable for playing the page with the ratio of 9:16, etc., such as short videos shot by a terminal such as a mobile phone, etc. Because terminal equipment such as cell-phones adopts 9 more: 16,9: 18, and the like, when the terminal accesses the display device 200 and displays a terminal page through the display device 200, the vertical screen display direction can avoid excessive zooming of the page, the application page of the display 275 is fully utilized, and better user experience is achieved.
It should be noted that the horizontal screen display direction and the vertical screen display direction are only two different display directions of the display 275, and do not limit the displayed content, for example, vertical media such as short videos and cartoons can still be displayed in the horizontal screen display direction; horizontal media such as TV dramas and movies can still be displayed in the vertical screen display direction, and only the display windows which are not matched with each other need to be compressed and adjusted in the display direction.
When the user uses the display device 200, the display direction of the display 275 is adjusted according to the viewing needs of the user. For example, after a rotation command is issued by controlling a rotation key on the apparatus 100, or selecting a rotation option on a UI interface, or inputting a "rotation" related voice through a voice system, the controller 250 controls the rotation component 276 to rotate according to the rotation command to drive the display 275 to rotate. For example, when the user wants to watch a short video through the display device 200, the user may input a rotation instruction in one of the above manners to rotate the display 275 in the landscape display direction counterclockwise by 90 degrees to the portrait display direction, so as to adapt to the page scale of a vertical application such as a short video.
In some cases, when a user watches media assets by using the display device shown in the present application, a display direction supported by the media assets is not consistent with a current display direction of the display 275, which causes a problem of wasting screen resources. Specifically, referring to fig. 6, fig. 6 is a schematic diagram of a display page according to a feasible embodiment, and it can be seen in the interface 1 that the display direction supported by the media assets is a vertical screen display direction, but the current display direction of the display 275 is a horizontal screen display direction, which results in waste of screen resources corresponding to the area a and the area B of the display 275.
Usually, the user selects to control the display 275 to rotate, so that the display direction of the rotated display 275 is consistent with the display direction of the media support, and particularly, referring to the interface 2 in fig. 6, it can be seen that the screen resources are fully utilized.
In order to improve the experience of the user, in the process of rotating the display 275, the display page of the currently played media asset needs to be controlled to rotate, and the rotation direction of the display page is opposite to the rotation direction of the display 275, so as to ensure that the display page viewed by the user is always in a stationary state, specifically, refer to fig. 7, which is a schematic diagram of change of the display page in the process of rotating the display 275 of fig. 7. It can be seen that during the rotation of the display 275, the rotation direction of the display page is always opposite to the rotation direction of the display 275, so that the media asset interface viewed by the user is always in a static state.
Since the page refresh rate of the display device is limited by the hardware processing capability, the page refresh frequency of different display devices has a certain difference. If the page refresh rate of the display is inconsistent with the drawing frequency of the display page, page jitter will be caused, and the user experience is poor. For example, in some feasible embodiments, the page refresh rate of the display device is 60 times/second, but the controller draws one frame of the presentation page every 1/200 seconds, then in the period of 0-1/60 seconds, the controller draws three presentation pages in 1/200 seconds, 1/100 seconds and 3/200 seconds, if the controller randomly selects the presentation page drawn in the period of 0-1/60 seconds for presentation, the presentation interface viewed by the end user changes uneven page jitter, and further, due to a time difference between page drawing and page refreshing (presentation), the time difference may cause the rotation angle of the presentation page not to be consistent with the rotation angle of the display, the presentation page viewed by the user is tilted, and the user experience is poor. Further, if the controller was at 1/60 seconds, the rendered show page was refreshed 1/120 seconds.
The page refresh rate in the present application is the number of times the controller pages are refreshed per second. The refreshing process is that the electron gun scans line by line from left to right from the first line at the upper left corner of the display, the first line is scanned and then scanned from the leftmost end of the second line to the rightmost end of the second line, and the scanning of the whole display and then the scanning of the display are started from the upper left corner of the display, so that the refreshing of the display is completed once, and at the moment, a user can see a frame of display page. The frequency of drawing of the display page in the application, the number of times the display page is rendered by the controller per second. The rendering process of rendering the display page comprises the following steps: the controller configures a display page to initialize OpenGL, configures an OpenGL environment, loads resources and renders the display page.
In order to solve the above technical problem, an embodiment of the present application illustrates a display device, and a work flow of the display device may refer to fig. 8. The display device shown in the embodiment of the present application includes: a display 275, a rotating assembly 276, and a controller 250, wherein:
a display 275 for displaying the presentation page.
A rotating assembly 276, wherein the rotating assembly 276 is connected with the display 275 and is configured to drive the display 275 to rotate;
a controller 250 configured to perform the steps of:
s101, controlling the rotating assembly 276 to drive the display 275 to rotate;
in this embodiment, the display direction of the display 275 may be a horizontal display direction or a vertical display direction. When it is necessary to control the rotation of the display 275, the controller 250 controls the rotation component to rotate the display 275.
In some implementations, the user may input an operation instruction to trigger rotation to the display device 200, so that the display direction of the display 275 is converted from the landscape display direction to the portrait display direction, that is, the display device is converted from the landscape viewing mode to the portrait viewing mode; or the display direction of the display 275 is changed from the vertical screen display direction to the horizontal screen display direction, that is, the display device is changed from the vertical screen asset viewing mode to the horizontal screen asset viewing mode.
For example, in the landscape mode, when the user watches cable tv and wants to watch tremble audio after a certain period of time, the user may send a control command to the controller 250, and the controller 250 controls the rotating component 276 to rotate the display 275 after receiving the control command sent by the user. The control process described above can be understood as an active input.
For example, the switching between the landscape screen viewing mode and the portrait screen viewing mode may be a control instruction actively issued by the controller 250; for example, the controller 250 may monitor the display direction of the playing media asset and the current display direction of the display 275 in real time, and control the active control rotating assembly 276 to rotate the display 275 when the display direction of the media asset is not consistent with the display direction of the display 275.
In the present application, the assets can be, but are not limited to, videos, pictures, animations and application interfaces. In this embodiment, a process flow of the display device is described by taking a video as an example.
In some feasible embodiments, in response to a video playing instruction input by a user, the controller 250 reads a first display direction and a second display direction, where the first display direction is a display direction supported by a currently played video, and the second display direction is a current display direction of the display 275; if the first display direction is not consistent with the second display direction, the controller 250 controls the rotating assembly 276 to rotate the display 275, so that the display direction of the rotated display 275 is consistent with the first display direction; for example, if the controller 250 detects that the current rotation angle of the display 275 is 90 degrees through the angle sensor, it may determine that the display direction of the display 275 is the vertical display direction, and when the first display direction is the horizontal display direction, the display 275 may be rotated so that the display direction of the rotated display 275 is the vertical display direction. For another example, if the controller 250 detects that the current rotation angle of the display 275 is 90 degrees through the angle sensor, it may determine that the display direction of the display 275 is the landscape display direction, and when the first display direction is the portrait display direction, the display 275 may be rotated, so that the display direction of the rotated display 275 is the landscape display direction.
There are various ways to read the first/second display directions.
For example, the controller 250 may determine the first presentation direction by reading a resolution of the video. Wherein the resolution of the video includes the width and height of the video. If the width is larger than the height, the display direction of the video is the horizontal screen display direction; and if the width is smaller than the height, the display direction of the video is the vertical screen display direction.
Specifically, after completing the action of loading the video, the attribute value of the video is also stored in the local memory of the controller 250, and at this time, the controller 250 may determine the display direction of the video by calling the resolution in the attribute value. The resolution describes the number of pixels included in the video in both the "horizontal" and "vertical" dimensions. For example, 1920 × 1080 video is composed of 1920 pixels in the horizontal direction and 1080 pixels in the vertical direction (2,073,600 pixels in total). Based on the resolution, whether the video is a horizontal screen display video or a vertical screen display video can be obtained.
In some possible embodiments, the resolution of the video loaded by the controller 250 is 320 × 240, and the controller 250 determines that the video is a landscape display video, and the corresponding first display direction is a landscape display direction. In another possible embodiment, the resolution of the loaded video is adjusted to 768 × 1024 by the controller 250, and the controller 250 determines that the video is the vertical-screen display video, and accordingly, the first display direction is the horizontal-screen display direction.
For another example, to add a direction identifier to the configuration information of the video, the controller 250 may obtain the configuration information of the video being played through the application; then, it is determined whether the first display direction is a landscape display direction or a portrait display direction based on the configuration information.
Specifically, the controller 250 is further configured to: reading a direction identifier; if the display direction identifier is the first direction identifier, the display direction supported by the video is the horizontal screen display direction; and if the display direction identifier is the second direction identifier, the display direction supported by the video is the vertical screen display direction. In the practical application process, the first identification value and the second identification value may be set according to requirements, and the applicant does not make much limitation herein. An identification value may be added to the configuration information: and com, H/V/HV, wherein H represents that the video only supports the horizontal screen display direction, V represents that the video only supports the vertical screen, and HV represents that the video simultaneously supports the horizontal screen display direction and the vertical screen display direction.
In some feasible embodiments, the controller 250 invokes the orientation identification of the video: and com, H, the controller 250 determines the display direction of the video support as the landscape display direction. In another possible embodiment, the controller 250 reads the orientation identification of the video: and com, V, the controller 250 determines the first display direction as the vertical screen display direction.
The current presentation direction (second presentation direction) of the display 275 may be monitored by a sensor built into the display device 200. For example, a gyroscope, a gravitational acceleration sensor, or the like is provided on the display 275 of the display device 200, and attitude data of the display 275 with respect to the direction of gravity can be determined by measuring angular acceleration or the direction of gravity. The monitored attitude data is then compared with the attitude data in the horizontal screen display direction and the vertical screen display direction, respectively, to determine the display direction in which the display 275 is currently located.
For another example, a grating angle sensor, a magnetic field angle sensor, a sliding resistance angle sensor, or the like may be provided on the rotating member 276, and the display direction in which the display 275 is currently located may be determined by measuring the angle of rotation of the rotating member 276 and comparing the angle with the angle in the landscape display direction and the portrait display direction, respectively.
The embodiments of the present application only show several implementation manners of reading the first/second display directions by way of example, and in the process of practical application, the implementation manner of reading the first/second display directions is not limited to the above several manners.
S102, responding to the display 275 starting to rotate, and calling drawing parameters, wherein the drawing parameters at least comprise the page refresh rate of the display device;
there are various implementations of determining when the display 275 begins to rotate.
For example: the controller 250 is further configured to perform the following steps 11-13, determining when the display 275 begins to rotate.
Step 11, collecting the rotation speed, wherein the rotation speed is used for recording the rotation speed of the display 275;
in the present application, a sensor may be provided on the controller 250 for monitoring the rotation angle of the display 275 in real time, and the rotation speed is the rotation angle per unit time. Typically the rotation speed is 0, i.e. the display 275 is in a stationary state.
Step 12, if the rotation speed is greater than the preset rotation speed, the display 275 starts to rotate;
the preset rotation speed can be set according to requirements during practical application, and in some feasible embodiments, the preset rotation speed can be 0.01 degrees/ms. The controller 250 collects one rotation angle every 20ms after issuing a rotation command to the rotation member 276 and calculates the rotation angle as a rotation speed, and when the rotation speed is greater than 0.01 degree/ms, the display 275 starts to rotate.
Step 13 if the rotational speed is less than the preset rotational speed, the display 275 stops rotating.
The first rotation degree is continuously greater than the preset rotation speed during the rotation of the display 275, and the rotation speed is less than the preset rotation speed when the rotation of the display 275 is stopped.
In practical applications, the display 275 may be rotated by an external force, and the rotation speed recorded by the controller 250 may be greater than the preset rotation speed. In order to avoid the above problem, in the present embodiment, the controller 250 may start to rotate when the rotation speed acquired n times in succession is greater than the preset rotation speed.
For another example, it can be considered that when the controller 250 issues a rotation command, the display 275 starts to rotate.
The embodiment is only an example of two implementation manners for determining the starting rotation direction of the display 275, and in the process of practical application, the implementation manner for determining the starting rotation direction of the display 275 may be, but is not limited to, the two implementation manners.
In the present application, the drawing parameters at least include: the page refresh rate, the target time and the target angle of the display device;
the page refresh rate, the target time, and the target angle may be stored in the memory of the controller 250 in advance.
In practical applications, the target angle can be set according to requirements, and the display 275 is usually switched between the landscape display mode and the portrait display mode, so that the target angle setting can be set in some feasible embodiments, but is not limited to 90 degrees.
The page refresh rate is dependent on the performance of the display device and may be 60 times/second in some feasible embodiments.
In some feasible embodiments, the controller 250 may previously count the time required for the display device to rotate to the target angle, then generate the target time according to the statistical result, and then store the target time for a subsequent application. Wherein the target time generation process may be that the controller 250 is configured to execute steps 21 to 23 to generate the target time.
Step 21, respectively recording the time required for the display 275 to rotate to the target angle for N times;
for example: first rotation: the controller 250 controls the rotation of the display 275 while recording the time T required for the display 275 to rotate by 90 degrees90,1;
And (3) second rotation: the controller 250 controls the rotation of the display 275 while recording the time T required for the display 275 to rotate by 90 degrees90,2;
And (3) third rotation: the controller 250 controls the rotation of the display 275 while recording the time T required for the display 275 to rotate by 90 degrees90,3;
Fourth rotation: the controller 250 controls the rotation of the display 275 while recording the time T required for the display 275 to rotate by 90 degrees90,4;
……
And (3) rotation for the Nth time: the controller 250 controls the rotation of the display 275 while recording the time T required for the display 275 to rotate by 90 degrees90,N。
Step 22, counting the probability of occurrence at each time;
FIG. 9 shows T according to a possible embodimentθ,N-P, wherein the abscissa denotes Tθ,NI.e., the time required for the display 275 to rotate theta, P is Tθ,NThe probability of occurrence.
And step 23, screening out the time with the probability greater than the preset probability as target time.
The preset probability can be set according to requirements, wherein the higher the value of the preset probability is, the more accurate the corresponding calculation result is.
With continued reference to FIG. 9, any time between Ti and Tj can be used as the target time. In some feasible embodiments, in order to ensure the accuracy of the generated target time, the average value of Ti to Tj may be calculated as the target time.
S103, drawing the display page of the display 275 according to the drawing parameters, so that the drawn display page is matched with the page refresh rate of the display device, the rotation angle of the display page is consistent with the rotation angle of the display 275, and the rotation direction of the display page is opposite to the rotation direction of the display 275.
In order to prevent the page from shaking, the drawing frequency of the display page is not less than the page refresh rate of the display device, and preferably, the drawing frequency of the display page is equal to the page refresh rate of the display device.
There are various ways to control the rendering frequency of the display page to be consistent with the page refresh rate of the display device.
For example, in some feasible embodiments, the page refresh rate of the display device is 60 times/second, and accordingly, the controller 250 may draw 60 presentation pages per minute so that the drawn presentation pages match the page refresh rate of the display device.
For another example, in some feasible embodiments, the page refresh rate is 60 times/second, the controller 250 may calculate that the display device refreshes a page every 1/60 seconds, and the controller 250 draws a presentation interface every 1/60 seconds starting with the time that the display 275 starts rotating, so that the drawn presentation page matches the page refresh rate of the display device.
The embodiment is only an exemplary implementation manner showing that the drawing frequency of the display page is consistent with the page refresh rate of the display device, and in the process of practical application, the implementation manner controlling that the drawing frequency of the display page is consistent with the page refresh rate of the display device may be, but is not limited to, the above two implementation manners.
There are various implementations of controlling the rotation direction of the presentation page to be opposite to the rotation direction of the display 275.
For example: the controller 250 may read the rotation direction of the display 275 and then control the reverse rotation of the presentation page to the rotator-selected rotation direction. In some possible embodiments, the rotation direction of the display 275 is clockwise rotation and the rotation direction of the corresponding presentation page is counterclockwise rotation.
For another example, the controller 250 may pre-store the rotation direction of the display 275, and when the presentation page needs to be drawn during the rotation, the controller 250 controls the display page to rotate in the direction opposite to the rotation direction selected by the rotator.
The embodiment of the present application is only an exemplary implementation manner showing that the rotation direction of the two control presentation pages is opposite to the rotation direction of the display 275, and the control process may be configured according to an actual application environment in a process of an actual application, which is not limited by the applicant herein.
There are various ways to control the rotation angle of the presentation page in correspondence with the rotation angle of the display 275.
For example, the controller 250 calculates a Rotation step DR (Rotation) of the presentation page for each drawing according to the drawing parameters, and then draws the presentation page according to the page refresh rate, where the presentation page for each drawing is rotated by an angle R2(Rotation), and R2 is DR a, where R2 is a Rotation angle in degrees, a is the number of times the page is drawn, and a is times.
For another example, the controller 250 calculates a rotation step RT of the presentation page drawn each time according to the drawing parameters, and then draws one presentation page every interval D2, and the presentation page drawn each time rotates by an angle R2, where D2(Duration) is a page refresh time in seconds, and D2 is 1/f.
Wherein, the calculation process of the rotation step length is as follows:
the controller 250DR ═ R1/D1/f, where f is the page refresh rate, and the unit is times/second; d1 is the target time in seconds; r1 is the target angle in degrees; DR is the rotation step, in degrees/times; calculating the rotation angle according to the following formula; r2 ═ DR × a, where R2 is the rotation angle in degrees, a is the page drawing times in times.
In some possible embodiments, R is 90 °, D is 6S, and f is 60 times/sec; DR 90/6/60 degree/time 0.25 degree/time.
The embodiment of the present application is only an exemplary implementation manner showing that the rotation angle of the two control presentation pages is consistent with the rotation angle of the display 275, and the control process may be configured according to an actual application environment in a process of actual application, which is not limited by the applicant herein.
The following describes the rendering process of the presentation page in detail with reference to specific examples.
In some possible embodiments R90 °, D6S, f 60 times/second (or Hz); DR 90/6/60 degree/time 0.25 degree/time.
Example 1:
when the controller 250 controls the rotating component 276 to drive the display 275 to rotate clockwise, the controller 250 draws the first frame of the display page at 1/60s, wherein the rotation angle of the first frame of the display page is 0.25 degrees, and the drawing process is substantially as follows: the controller 250 configures a display page to initialize OpenGL, configures an OpenGL environment, loads resources, sets resource parameters, and renders the content of the display page, where the page model angle is rotated counterclockwise by 0.25 degrees. Drawing a first frame of the presentation page at 2/60s, wherein the rotation angle of the first frame of the presentation page is 0.25 x 2 degrees, the content of the presentation page, and each page model angle is rotated counterclockwise by 0.50 degrees … … until the controller 250 stops rotating.
Example 2:
when the controller 250 controls the rotating component 276 to drive the display 275 to rotate clockwise, the controller 250 draws the display page according to the drawing frequency of 60Hz, and the rotation angles of the display page drawn each time are respectively: 0.25 degrees, 0.25 x 2 degrees, 0.25 x 3 degrees … … 90 degrees. The drawing process is generally as follows: the controller 250 configures a display page to initialize OpenGL, configures an OpenGL environment, loads resources, sets resource parameters, and renders the content of the display page, where the page model angle is rotated counterclockwise by 0.25 degrees.
It is noted that the controller 250 needs to calculate the rotation angle in real time only during the rotation of the display 275, and the controller 250 terminates rendering the rotation angle when the display 275 stops rotating.
There are various ways to determine that the display 275 stops rotating.
For another example: the controller 250 is further configured to record the angle of rotation and the display 275 stops rotating if the angle of rotation equals 90 degrees.
For another example: the controller 250 is further configured to record the rotation time and the display 275 stops rotating if the rotation angle is equal to the target rotation time.
Illustratively, the target rotation time is 6 seconds, and when the controller 250 monitors that the rotation speed of the display 275 is greater than the preset rotation speed, the controller 250 starts counting time, and when the time recorded by the display 275 is equal to 6 seconds, the display 275 stops rotating.
S104 controls the display 275 to display a presentation page.
In the implementation shown in the embodiment of the present application, the videos include a cable video and a network video, where the network video includes: video pictures and graphic layer pictures covering the upper layer of the video pictures. The graphic layer picture is also referred to as OSD (on screen display) in the embodiment of the present application, and the graphic layer picture is displayed in a fixed or non-fixed manner. For example: the graphic layer picture may be a picture in which various notifications and the like can be superimposed using characters while a video program is being played. When a user needs to know certain information, the user calls a graphic layer picture corresponding to the information, and the graphic layer picture is cancelled after a period of time. For example: the user wants to know the volume of the currently played video, and the user calls a graphic layer picture corresponding to the volume through voice or a remote controller. The display 275 displays the graphic layer picture corresponding to the volume, and the graphic layer picture corresponding to the volume is canceled after 20 seconds. The graphics layer picture is only displayed on the display 275 when called by the user through voice or a remote control. Generally, the display 275 does not display the graphic layer screen during the rotation of the display 275, and therefore, the appearance of the graphic layer screen during the rotation of the display 275 does not affect the experience of the user.
In order to reduce the data processing amount of the controller 250, in the embodiment shown in the present application, before the display 275 rotates or when the display 275 rotates, if the auto-rotation control symbol of the graphics layer picture is in the on state, the state of the auto-rotation control symbol is adjusted to the off state, so that the controller 250 does not need to draw the graphics layer pictures of different rotation angles in real time during the rotation of the display 275. The specific implementation process can be as follows: if the first presentation direction does not coincide with the second presentation direction, the controller 250 is further configured to: reading the state of the automatic rotation control symbol of the graphic layer; and if the automatic rotation control symbol is in an opening state, adjusting the state of the automatic rotation control symbol to be in a closing state. In response to the display 275 ceasing to rotate, the state of the auto-rotation control symbol is adjusted from the off state to the on state.
The display device provided by the embodiment of the application is provided with a controller 250, a display 275 and a rotating assembly 276. The controller 250 stores the page refresh rate of the display device, and when the rotating component 276 drives the display 275 to rotate, the controller 250 can retrieve the page refresh rate stored in advance in response to the display 275 rotating, and draw the display page according to the page refresh rate, so that the drawing frequency of the display page is matched with the page refresh rate of the display device, the display page viewed by the user is ensured to change smoothly, and the problem of page jitter is avoided. Further, in the process of rotating the display 275, the display page drawn by the controller 250 rotates, the rotation angle of the display page is the same as the rotation angle of the display 275, and the rotation direction is opposite, so that the display page viewed by the user is always matched with the display direction of the display 275, and the user experience is better.
In specific implementations, the present application also provides a computer storage medium, wherein the computer storage medium may store a program, and the program may include some or all of the steps in the embodiments of the method provided by the present application when executed, and when the controller 250 of the display device provided by the present application runs the computer program instructions, the controller 250 executes the steps in which the controller 250 of the present application is configured. The storage medium may be a magnetic disk, an optical disk, a read-only memory (ROM), a Random Access Memory (RAM), or the like.
Those skilled in the art will clearly understand that the techniques in the embodiments of the present application may be implemented by way of software plus a required general hardware platform. Based on such understanding, the technical solutions in the embodiments of the present application may be essentially implemented or portions thereof contributing to the prior art may be embodied in the form of a software product, which may be stored in a storage medium, such as a ROM/RAM, a magnetic disk, an optical disk, etc., and includes several instructions for enabling a computer device (which may be a personal computer, a server, or a network device, etc.) to execute the method of the embodiments or some portions thereof in the embodiments of the present application.
The same and similar parts in the various embodiments in this specification may be referred to each other. In particular, for the embodiments, since they are substantially similar to the method embodiments, the description is simple, and the relevant points can be referred to the description in the method embodiments.
Claims (10)
1. A display device, comprising:
a display;
the rotating component is connected with the display and is configured to drive the display to rotate;
a controller configured to:
calling drawing parameters in response to the display starting to rotate, wherein the drawing parameters at least comprise a page refresh rate of the display device;
and drawing a display picture according to the drawing parameters, wherein the drawing frequency of the display page is matched with the page refresh rate of display equipment, the rotation angle of the display page is the same as that of the display, and the rotation direction of the display page is opposite to that of the display.
2. The display device according to claim 1, wherein the rendering parameters further comprise: target time and target angle;
the controller is further configured to: calculating a rotation step length according to the following formula;
DR R1/D1 f, where f is the page refresh rate in units of times/second; d1 is the target time in seconds; r1 is the target angle in degrees; DR is the rotation step, in degrees/times;
calculating the rotation angle according to the following formula;
r2 ═ DR × a, where R2 is the rotation angle in degrees, a is the number of page drawings in times;
and drawing the display page according to the page refresh rate, wherein the display page drawn each time rotates by an angle of R2.
3. The display device according to claim 1, wherein the rendering parameters further comprise: target time, target angle and page refreshing time of the display device;
the controller is further configured to: calculating a rotation step length according to the following formula;
R1/D1/f, where f is the page refresh rate in units of times/second; d1 is the target time in seconds; r1 is the target angle in degrees; DR is the rotation step, in degrees/times;
calculating the rotation angle according to the following formula;
r2 ═ DR × a, where R2 is the rotation angle in degrees, a is the number of page drawings in times;
drawing one display page at intervals of D2, and rotating the display page drawn each time by an angle of R2, wherein D2 is the page refreshing time in seconds, and D2 is 1/f.
4. The display device according to any one of claims 1 to 3, wherein the controller is further configured to:
in response to the display stopping rotating, stopping calculation of rotation data, the rotation data comprising: the rotation step length and the rotation angle.
5. The display device according to any one of claims 1 to 3, wherein the controller is further configured to:
reading the state of an automatic rotation control symbol in response to the display starting to rotate, wherein the automatic rotation control symbol is a control symbol for controlling the automatic rotation of the graphic layer of the currently played video;
and if the automatic rotation control symbol is in the opening state, adjusting the state of the automatic rotation control symbol to be in the closing state.
6. The display device of claim 5, wherein the controller is further configured to:
and adjusting the state of the automatic rotation control symbol from the off state to the on state in response to the display stopping rotating.
7. The display device according to any one of claims 1 to 3, wherein the controller is further configured to:
collecting a rotation speed, wherein the rotation speed is used for recording the rotation angle of the display in unit time;
if the rotation speed is greater than a preset rotation speed, the display starts to rotate;
if the rotational speed is less than a preset rotational speed, the display stops rotating.
8. A display device as claimed in any one of claims 1-3, characterized in that the display stops rotating if the angle of rotation equals a target angle.
9. The display device according to any one of claims 1 to 3, wherein the controller is further configured to:
recording a rotation time, and if the rotation time is equal to the target time, stopping the rotation of the display.
10. The display device according to claim 1, wherein the controller is further configured to:
respectively recording the time required by N times of rotation of the recording display to the target angle;
counting the probability of occurrence at each of the times;
and screening out the time with the probability greater than the preset probability as the target time.
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