WO2022105410A1 - 一种显示设备及其设备参数的记忆方法、恢复方法 - Google Patents

一种显示设备及其设备参数的记忆方法、恢复方法 Download PDF

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Publication number
WO2022105410A1
WO2022105410A1 PCT/CN2021/119593 CN2021119593W WO2022105410A1 WO 2022105410 A1 WO2022105410 A1 WO 2022105410A1 CN 2021119593 W CN2021119593 W CN 2021119593W WO 2022105410 A1 WO2022105410 A1 WO 2022105410A1
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Prior art keywords
parameter
parameters
setting
parameter setting
user
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PCT/CN2021/119593
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English (en)
French (fr)
Inventor
董杰
周俊涛
贾桂丽
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海信视像科技股份有限公司
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Priority claimed from CN202011323229.0A external-priority patent/CN112565862A/zh
Priority claimed from CN202110442361.1A external-priority patent/CN113094142A/zh
Application filed by 海信视像科技股份有限公司 filed Critical 海信视像科技股份有限公司
Publication of WO2022105410A1 publication Critical patent/WO2022105410A1/zh

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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04NPICTORIAL COMMUNICATION, e.g. TELEVISION
    • H04N21/00Selective content distribution, e.g. interactive television or video on demand [VOD]
    • H04N21/40Client devices specifically adapted for the reception of or interaction with content, e.g. set-top-box [STB]; Operations thereof
    • H04N21/43Processing 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
    • H04N21/431Generation of visual interfaces for content selection or interaction; Content or additional data rendering

Definitions

  • the present application relates to the field of display technology, and in particular, to a display device and a method for memorizing and restoring device parameters thereof.
  • display devices include smart TVs, smart set-top boxes, smart boxes, and products with smart display screens.
  • a smart TV in order to provide a good user experience, a smart TV usually provides a device parameter setting function to allow users to perform personalized settings.
  • the device parameters include parameters such as picture quality, sound, and network.
  • the present application provides a display device, including:
  • a display configured to present a system home page and a device parameter setting interface displaying a system setting button
  • controller connected to the display, the controller configured to:
  • a device parameter setting interface is generated, and several parameter setting options for realizing parameter setting of different functions are presented in the device parameter setting interface;
  • the initial device parameters corresponding to each of the parameter setting options are stored in the temporary data cache.
  • FIG. 1 exemplarily shows a schematic diagram of an operation scene between a display device and a control apparatus according to some embodiments
  • FIG. 2 exemplarily shows a hardware configuration block diagram of a display device 200 according to some embodiments
  • FIG. 3 exemplarily shows a hardware configuration block diagram of the control device 100 according to some embodiments
  • FIG. 4 exemplarily shows a schematic diagram of software configuration in the display device 200 according to some embodiments
  • FIG. 5 exemplarily shows a schematic diagram of displaying an icon control interface of an application in the display device 200 according to some embodiments
  • Figure 6 exemplarily shows a data flow diagram of a parameter memory recovery method according to some embodiments
  • FIG. 7 exemplarily shows a flowchart of a method for memorizing device parameters of a display device according to some embodiments
  • FIG. 8 exemplarily shows a schematic display of a device parameter setting interface according to some embodiments.
  • FIG. 9 exemplarily shows a schematic diagram of a device parameter setting interface according to some embodiments.
  • FIG. 10(a) exemplarily shows a schematic diagram of an option parameter comparison list according to some embodiments
  • FIG. 10(b) exemplarily shows another schematic diagram of an option parameter comparison list according to some embodiments.
  • FIG. 11 exemplarily shows a flowchart of a method for restoring device parameters of a display device according to some embodiments
  • FIG. 12 exemplarily shows a schematic diagram of an equalizer setting interface according to some embodiments.
  • FIG. 13 exemplarily shows a flowchart of a method for obtaining initialization parameters according to some embodiments
  • FIG. 14(a) exemplarily shows a schematic diagram of a parameter adjustment control diagram according to some embodiments
  • FIG. 14(b) exemplarily shows another schematic diagram of a parameter adjustment control diagram according to some embodiments.
  • Figure 15 shows a schematic diagram of an image mode adjustment page according to some embodiments.
  • 16 shows a schematic diagram of a home page of a display device 200 according to some embodiments.
  • Figure 17 shows a schematic diagram of a settings page in accordance with some embodiments.
  • Figure 18 shows a schematic diagram of an image settings page in accordance with some embodiments.
  • FIG. 19 shows a display flow diagram of the display device 200 according to some embodiments.
  • Figure 20 shows a second schematic diagram of an image mode adjustment page according to some embodiments.
  • Figure 21 shows a schematic diagram of a white balance adjustment page according to some embodiments.
  • FIG. 22 shows a second display flow chart of the display device 200 according to some embodiments.
  • Figure 23 shows another schematic diagram of a white balance adjustment page according to some embodiments.
  • FIG. 24 shows a third display flow diagram of the display device 200 according to some embodiments.
  • FIG. 25 shows a fourth display flow chart of the display device 200 according to some embodiments.
  • Figure 26 shows a third schematic diagram of an image mode adjustment page according to some embodiments.
  • FIG. 27 shows a fifth display flow chart of the display device 200 according to some embodiments.
  • FIG. 28 shows a sixth display flow chart of the display device 200 according to some embodiments.
  • FIG. 29 shows a seventh display flow chart of the display device 200 according to some embodiments.
  • remote control refers to a component of an electronic device, such as the display device disclosed in this disclosure, that can wirelessly control the electronic device, typically over a short distance.
  • infrared and/or radio frequency (RF) signals and/or Bluetooth are used to connect with electronic devices, and functional modules such as WiFi, wireless USB, Bluetooth, and motion sensors may also be included.
  • RF radio frequency
  • a hand-held touch remote control replaces most of the physical built-in hard keys in a general remote control device with a user interface in a touch screen.
  • the term "gesture” refers to a user behavior that is used by a user to express an expected thought, action, purpose/or result through a change of hand shape or an action such as hand movement.
  • FIG. 1 shows a schematic diagram of an operation scenario between a display device and a control apparatus according to an embodiment. As shown in FIG. 1 , a user may operate the display apparatus 200 through the mobile terminal 300 and the control apparatus 100 .
  • control device 100 may be a remote controller, and the communication between the remote controller and the display device includes infrared protocol communication or Bluetooth protocol communication, and other short-range communication methods, etc., and controls the display device 200 by wireless or other wired methods.
  • the user can control the display device 200 by inputting user instructions through keys on the remote control, voice input, control panel input, and the like.
  • the user can control the display device 200 by inputting corresponding control commands through the volume up/down key, channel control key, up/down/left/right movement keys, voice input key, menu key, power-on/off key, etc. on the remote control. function.
  • mobile terminals, tablet computers, computers, notebook computers, and other smart devices may also be used to control the display device 200 .
  • the display device 200 is controlled using an application running on the smart device.
  • the app can be configured to provide users with various controls in an intuitive user interface (UI) on the screen associated with the smart device.
  • UI intuitive user interface
  • the mobile terminal 300 may install a software application with the display device 200 to implement connection communication through a network communication protocol, so as to achieve the purpose of one-to-one control operation and data communication.
  • a control command protocol can be established between the mobile terminal 300 and the display device 200
  • the remote control keyboard can be synchronized to the mobile terminal 300
  • the function of controlling the display device 200 can be realized by controlling the user interface on the mobile terminal 300.
  • the audio and video content displayed on the mobile terminal 300 may also be transmitted to the display device 200 to implement a synchronous display function.
  • the display device 200 also performs data communication with the server 400 through various communication methods.
  • the display device 200 may be allowed to communicate via local area network (LAN), wireless local area network (WLAN), and other networks.
  • the server 400 may provide various contents and interactions to the display device 200 .
  • the display device 200 interacts by sending and receiving information, and electronic program guide (EPG), receiving software program updates, or accessing a remotely stored digital media library.
  • EPG electronic program guide
  • the server 400 may be a cluster or multiple clusters, and may include one or more types of servers. Other network service contents such as video-on-demand and advertising services are provided through the server 400 .
  • the display device 200 may be a liquid crystal display, an OLED display, or a projection display device.
  • the specific display device type, size and resolution are not limited. Those skilled in the art can understand that the display device 200 can make some changes in performance and configuration as required.
  • the display device 200 may additionally provide a smart IPTV function that provides computer-supported functions, including but not limited to, IPTV, smart TV, Internet Protocol TV (IPTV), and the like, in addition to the broadcast receiving TV function.
  • a smart IPTV function that provides computer-supported functions, including but not limited to, IPTV, smart TV, Internet Protocol TV (IPTV), and the like, in addition to the broadcast receiving TV function.
  • FIG. 2 shows a block diagram of a hardware configuration of the display apparatus 200 according to an exemplary embodiment.
  • the display device 200 includes a controller 250, a tuner 210, a communicator 220, a detector 230, an input/output interface 255, a display 275, an audio output interface 285, a memory 260, a power supply 290, At least one of the user interface 265 and the external device interface 240 .
  • the display 275 for receiving the image signal from the output of the first processor, performs components for displaying video content and images and a menu manipulation interface.
  • the display 275 includes a display screen component for presenting pictures, and a driving component for driving image display.
  • the video content displayed may be from broadcast television content or various broadcast signals that may be received via wired or wireless communication protocols.
  • various image contents sent from the network server side can be displayed and received from the network communication protocol.
  • display 275 is used to present a user-manipulated UI interface generated in display device 200 and used to control display device 200 .
  • a driving component for driving the display is also included.
  • display 275 is a projection display, and may also include a projection device and projection screen.
  • communicator 220 is a component for communicating with external devices or external servers according to various communication protocol types.
  • the communicator may include at least one of a Wifi chip, a Bluetooth communication protocol chip, a wired Ethernet communication protocol chip and other network communication protocol chips or a near field communication protocol chip, and an infrared receiver.
  • the display device 200 may establish control signal and data signal transmission and reception between the communicator 220 and the external control device 100 or the content providing device.
  • the user interface 265 may be used to receive infrared control signals from the control device 100 (eg, an infrared remote control, etc.).
  • the detector 230 is a signal used by the display device 200 to collect the external environment or interact with the outside.
  • the detector 230 includes a light receiver, a sensor for collecting ambient light intensity, and can adaptively display parameter changes and the like by collecting ambient light.
  • the detector 230 may also include an image collector, such as a camera, a camera, etc., which can be used to collect external environment scenes, and used to collect user attributes or interactive gestures with the user, and can adaptively change display parameters, User gestures can also be recognized to implement functions that interact with users.
  • an image collector such as a camera, a camera, etc., which can be used to collect external environment scenes, and used to collect user attributes or interactive gestures with the user, and can adaptively change display parameters, User gestures can also be recognized to implement functions that interact with users.
  • detector 230 may also include a temperature sensor or the like, such as by sensing ambient temperature.
  • the display device 200 can adaptively adjust the display color temperature of the image. For example, when the temperature is relatively high, the display device 200 can be adjusted to display a relatively cool color temperature of the image, or when the temperature is relatively low, the display device 200 can be adjusted to display a warmer color of the image.
  • the detector 230 may also be a sound collector or the like, such as a microphone, which may be used to receive the user's voice. Exemplarily, it includes a voice signal of a control instruction of the user to control the display device 200, or collects ambient sounds, and is used to identify the type of the ambient scene, so that the display device 200 can adapt to the ambient noise.
  • the input/output interface 255 is configured to enable data transfer between the controller 250 and other external devices or other controllers 250 . Such as receiving video signal data and audio signal data of external equipment, or command instruction data, etc.
  • the external device interface 240 may include, but is not limited to, the following: any one or more of a high-definition multimedia interface HDMI interface, an analog or data high-definition component input interface, a composite video input interface, a USB input interface, an RGB port, etc. interface. It is also possible to form a composite input/output interface by a plurality of the above-mentioned interfaces.
  • the tuner and demodulator 210 is configured to receive broadcast television signals through wired or wireless reception, and can perform modulation and demodulation processing such as amplification, frequency mixing, and resonance, and can perform modulation and demodulation processing from multiple wireless receivers.
  • the audio and video signal may include the TV audio and video signal carried in the frequency of the TV channel selected by the user, and the EPG data signal.
  • the frequency demodulated by the tuner-demodulator 210 is controlled by the controller 250, and the controller 250 can send a control signal according to the user's selection, so that the modem responds to the user-selected TV signal frequency and modulates and demodulates the frequency.
  • the controller 250 and the tuner 210 may be located in different separate devices, that is, the tuner 210 may also be located in an external device of the main device where the controller 250 is located, such as an external set-top box Wait.
  • the set-top box outputs the modulated and demodulated television audio and video signals of the received broadcast television signals to the main device, and the main device receives the audio and video signals through the first input/output interface.
  • the controller 250 controls the operation of the display device and responds to user operations.
  • the controller 250 may control the overall operation of the display apparatus 200 .
  • the controller 250 may perform an operation related to the object selected by the user command.
  • the controller 250 includes a random access memory 251 (Random Access Memory, RAM), a read-only memory 252 (Read-Only Memory, ROM), a video processor 270, an audio processor 280, and other processors 253 (For example: at least one of graphics processing unit (Graphics Processing Unit, GPU), central processing unit 254 (Central Processing Unit, CPU), communication interface (Communication Interface), and communication bus 256 (Bus). Wherein, the communication bus Connect the parts.
  • the power supply of the display device 200 starts to start, and the CPU executes the system start-up instruction in the ROM 252, and copies the temporary data of the operating system stored in the memory to the RAM 251, so as to facilitate startup or operation operating system.
  • the CPU copies the temporary data of various application programs in the memory to the RAM 251, so as to facilitate starting or running various application programs.
  • the CPU processor 254 executes operating system and application program instructions stored in memory. And various application programs, data and content are executed according to various interactive instructions received from the external input, so as to finally display and play various audio and video content.
  • CPU processor 254 may include multiple processors.
  • the plurality of processors may include a main processor and one or more sub-processors.
  • the main processor is used to perform some operations of the display device 200 in the pre-power-on mode, and/or an operation of displaying a picture in the normal mode.
  • One or more sub-processors for an operation in a state such as standby mode.
  • the graphics processor 253 is used to generate various graphic objects, such as: icons, operation menus, and user input instructions to display graphics and the like. It includes an operator, which performs operations by receiving various interactive instructions input by the user, and displays various objects according to the display properties. and includes a renderer, which renders various objects obtained based on the operator, and the rendered objects are used for displaying on a display.
  • various graphic objects such as: icons, operation menus, and user input instructions to display graphics and the like. It includes an operator, which performs operations by receiving various interactive instructions input by the user, and displays various objects according to the display properties. and includes a renderer, which renders various objects obtained based on the operator, and the rendered objects are used for displaying on a display.
  • the video processor 270 is configured to receive an external video signal, perform video processing according to the standard codec protocol of the input signal, and obtain a signal directly displayed or played on the display device 200 .
  • the video processor 270 includes a demultiplexing module, a video decoding module, an image synthesis module, a frame rate conversion module, a display formatting module, and the like.
  • the graphics processor 253 and the video processor can be integrated and set up, and can also be set up separately.
  • the processing of the graphics signal output to the display can be performed.
  • different functions can be performed respectively. For example, GPU+FRC (Frame Rate Conversion)) architecture.
  • the audio processor 280 is configured to receive an external audio signal, perform decompression and decoding, and noise reduction, digital-to-analog conversion, and amplification processing according to a standard codec protocol of the input signal to obtain a The sound signal played in the speaker.
  • the video processor 270 may comprise one or more chips.
  • the audio processor may also include one or more chips.
  • the video processor 270 and the audio processor 280 may be separate chips, or may be integrated into one or more chips together with the controller.
  • the audio output under the control of the controller 250, receives the sound signal output by the audio processor 280, such as the speaker 286, and in addition to the speaker carried by the display device 200 itself, can be output to an external device.
  • the external audio output terminal of the device such as an external audio interface or an earphone interface, etc., may also include a short-range communication module in the communication interface, such as a Bluetooth module for outputting sound from a Bluetooth speaker.
  • the power supply 290 under the control of the controller 250, provides power supply support for the display device 200 with the power input from the external power supply.
  • the power supply 290 may include a built-in power supply circuit installed inside the display device 200 , or may be an external power supply installed in the display device 200 to provide an external power supply interface in the display device 200 .
  • the user interface 265 is used for receiving user input signals, and then sending the received user input signals to the controller 250 .
  • the user input signal may be a remote control signal received through an infrared receiver, and various user control signals may be received through a network communication module.
  • the user inputs user commands through the control device 100 or the mobile terminal 300 , the user input interface is based on the user's input, and the display device 200 responds to the user's input through the controller 250 .
  • the user may input user commands on a graphical user interface (GUI) displayed on the display 275, and the user input interface receives the user input commands through the graphical user interface (GUI).
  • GUI graphical user interface
  • the user may input a user command by inputting a specific sound or gesture, and the user input interface recognizes the sound or gesture through a sensor to receive the user input command.
  • the memory 260 includes storing various software modules for driving the display device 200 .
  • various software modules stored in the first memory include at least one of a basic module, a detection module, a communication module, a display control module, a browser module, and various service modules.
  • the basic module is used for signal communication between various hardwares in the display device 200, and is a low-level software module that sends processing and control signals to the upper-layer module.
  • the detection module is a management module used to collect various information from various sensors or user input interfaces, perform digital-to-analog conversion, and analyze and manage.
  • the speech recognition module includes a speech parsing module and a speech instruction database module.
  • the display control module is a module used to control the display to display image content, and can be used to play information such as multimedia image content and UI interface.
  • Communication module a module for control and data communication with external devices.
  • the browser module is a module for performing data communication between browsing servers. Service modules are used to provide various services and modules including various applications.
  • the memory 260 is also used to store and receive external data and user data, images of various items in various user interfaces, and visual effect diagrams of focus objects, and the like.
  • FIG. 3 is a block diagram showing the configuration of the control device 100 according to an exemplary embodiment.
  • the control device 100 includes a controller 110 , a communication interface 130 , a user input/output interface, a memory, and a power supply.
  • the control device 100 is configured to control the display device 200 , and can receive the user's input operation instructions, and convert the operation instructions into instructions that the display device 200 can recognize and respond to, and play an intermediary role between the user and the display device 200 .
  • the user operates the channel addition and subtraction keys on the control device 100, and the display device 200 responds to the channel addition and subtraction operations.
  • control device 100 may be a smart device.
  • control device 100 may install various applications for controlling the display device 200 according to user requirements.
  • the mobile terminal 300 or other intelligent electronic device can perform a similar function of controlling the device 100 after installing an application for operating the display device 200 .
  • the user can install the application, various function keys or virtual buttons of the graphical user interface provided on the mobile terminal 300 or other intelligent electronic devices, so as to realize the function of controlling the physical keys of the device 100 .
  • the controller 110 includes a processor 112 and RAM 113 and ROM 114, a communication interface 130, and a communication bus.
  • the controller is used to control the operation and operation of the control device 100, as well as the communication and cooperation among the internal components and the external and internal data processing functions.
  • the communication interface 130 realizes the communication of control signals and data signals with the display device 200 under the control of the controller 110 .
  • the received user input signal is sent to the display device 200 .
  • the communication interface 130 may include at least one of other near field communication modules such as a WiFi chip 131 , a Bluetooth module 132 , and an NFC module 133 .
  • the user input/output interface 140 wherein the input interface includes at least one of other input interfaces such as a microphone 141, a touch panel 142, a sensor 143, and a key 144.
  • the user can implement the user command input function through actions such as voice, touch, gesture, pressing, etc.
  • the input interface converts the received analog signal into a digital signal, and converts the digital signal into a corresponding command signal, and sends it to the display device 200.
  • the output interface includes an interface for transmitting received user instructions to the display device 200 .
  • control device 100 includes at least one of a communication interface 130 and an input-output interface 140 .
  • the communication interface 130 is configured in the control device 100, such as: WiFi, Bluetooth, NFC and other modules, which can send user input instructions to the display device 200 through WiFi protocol, or Bluetooth protocol, or NFC protocol encoding.
  • the memory 190 is used to store various operating programs, data and applications for driving and controlling the control device 200 under the control of the controller.
  • the memory 190 can store various control signal instructions input by the user.
  • the power supply 180 is used to provide operating power support for each element of the control device 100 under the control of the controller. Can battery and related control circuit.
  • the system is divided into four layers, from top to bottom, they are an application layer (referred to as “application layer”), an application framework layer (referred to as “framework layer”) ”), the Android runtime and the system library layer (referred to as the “system runtime layer”), and the kernel layer.
  • application layer an application layer
  • frame layer an application framework layer
  • Android runtime the Android runtime
  • system library layer the system library layer
  • kernel layer the kernel layer
  • the application framework layer includes managers (Managers), content providers (Content Providers), etc., wherein the managers include at least one of the following modules: the activity manager (Activity Manager) uses Interacts with all activities running in the system; Location Manager is used to provide system services or applications with access to system location services; Package Manager is used to retrieve files currently installed on the device Various information related to the application package; Notification Manager (Notification Manager) is used to control the display and clearing of notification messages; Window Manager (Window Manager) is used to manage icons, windows, toolbars, wallpapers on the user interface and desktop widgets.
  • the activity manager uses Interacts with all activities running in the system
  • Location Manager is used to provide system services or applications with access to system location services
  • Package Manager is used to retrieve files currently installed on the device Various information related to the application package
  • Notification Manager Notification Manager
  • Window Manager Window Manager
  • software programs and/or modules corresponding to the software architecture in FIG. 4 are stored in the first memory or the second memory shown in FIG. 2 or FIG. 3 .
  • the display device receives an input operation (such as a split-screen operation) performed by the user on the display screen, and the kernel layer can generate corresponding input operations according to the input operation. Enter an event and report the event to the application framework layer.
  • the window mode (such as multi-window mode) and window position and size corresponding to the input operation are set by the activity manager of the application framework layer.
  • the window management of the application framework layer draws the window according to the settings of the activity manager, and then sends the drawn window data to the display driver of the kernel layer, and the display driver displays the corresponding application interface in different display areas of the display screen.
  • the application layer contains at least one application that can display corresponding icon controls in the display, such as: live TV application icon control, video on demand application icon control, media center application Program icon controls, application center icon controls, game application icon controls, etc.
  • the live TV application may provide live TV from different sources.
  • a live TV application may provide a TV signal using input from cable, over-the-air, satellite services, or other types of live TV services.
  • the live TV application may display the video of the live TV signal on the display device 200 .
  • a video-on-demand application may provide video from various storage sources. Unlike live TV applications, video-on-demand provides a display of video from certain storage sources. For example, video-on-demand can come from the server side of cloud storage, from local hard disk storage containing existing video programs.
  • the media center application may provide various multimedia content playback applications.
  • a media center may provide services other than live TV or video-on-demand, where users can access various images or audio through a media center application.
  • the application center may provide storage of various applications.
  • An application can be a game, an application, or some other application that is related to a computer system or other device but can be run on a Smart TV.
  • the application center can obtain these applications from various sources, store them in local storage, and then run them on the display device 200 .
  • the user when the display device implements the smart TV function, the user can personalize the device parameters, so that the picture presented by the display device can meet the needs of the user, such as setting sound parameters, brightness parameters, and picture quality parameters, etc. .
  • the basic setting functions of traditional TVs can no longer meet the needs of users.
  • the present invention proposes a method for memorizing and restoring device parameters of a display device.
  • the display device automatically memorizes the device parameters after each adjustment, so that the user can intelligently memorize and restore the parameter state before the page setting, and enhance the user's experience.
  • the parameter memory process is started to store the parameters corresponding to each parameter setting option presented in the current device parameter device interface.
  • a parameter recovery button is displayed in the device parameter setting interface.
  • the user can trigger the parameter restore button to call the stored parameter information, and then the parameter corresponding to the parameter setting option adjusted by the user can be restored to the parameter before adjustment.
  • the present invention uses an intelligent parameter memory and recovery method to provide users with a more convenient, fast and intelligent setting service.
  • this setting method the user can memorize the parameter state when entering the device parameter setting interface, and at the same time, the user can restore the adjusted parameters to the "initial" state before adjustment with one click, providing users with a more intelligent functional experience and adding products.
  • Competitiveness The "initial" state here refers to the state before the user adjusts the parameters, not the factory state.
  • FIG. 6 exemplarily shows a data flow diagram of a parameter memory recovery method according to some embodiments
  • FIG. 7 exemplarily shows a flowchart of a memory method of a device parameter of a display device according to some embodiments.
  • a display device including: a display configured to present a system homepage and a device parameter setting interface displaying a system setting button; a controller and a display To connect, see Fig. 6 and Fig. 7, when performing the memorization method of the device parameters of the display device, the controller is configured to perform the following steps:
  • a device parameter setting interface is generated, and the device parameter setting interface presents several parameter setting options for realizing parameter setting of different functions.
  • the system homepage is displayed on the display of the display device, and different applications and system setting buttons are displayed on the system homepage.
  • Each application is used to implement a function, such as music, video, etc.; It is used to set the operation and display parameters of the display device.
  • a remote control can be configured.
  • a parameter setting instruction is generated.
  • the controller receives the parameter setting instruction, the user can implement the process of personalized setting of various parameters of the display device.
  • FIG. 8 exemplarily shows a schematic diagram of a device parameter setting interface according to some embodiments
  • FIG. 9 exemplarily shows a schematic diagram of a device parameter setting interface according to some embodiments.
  • the controller in response to the parameter setting instruction, the controller generates a device parameter setting interface and displays it on the display.
  • the device parameter setting interface may be displayed on the system homepage, but does not completely cover the system homepage, so that when the user adjusts parameters, the user can synchronously see changes in the presentation effect of the content displayed on the system homepage.
  • the device parameter setting interface includes several parameter setting options and operation guide prompt boxes, each parameter setting option is used to implement parameter setting for different functions.
  • Parameter setting options include, but are not limited to, balance, automatic volume control, digital audio output, equalizer, etc. shown in Figure 8.
  • Option n shown in FIG. 9 correspond to the options shown in FIG. 8 respectively.
  • the controller can execute the parameter memory process, that is, obtain the initial device parameters corresponding to each parameter setting option.
  • Each parameter setting option corresponds to an initial device parameter.
  • the initial device parameter refers to the parameter obtained by the user after adjusting the device parameter last time, that is, the historical setting parameter, that is, the corresponding parameter before this adjustment.
  • This parameter is the parameter adopted by the user when using the display device last time, which can indicate that the user is satisfied with the picture effect presented by the parameter.
  • different user interfaces will be displayed on the display when the user operates the display device to perform different functions. Therefore, in order to activate the parameter memory function accurately and timely, it is necessary to set page attributes for each user interface in advance. Only The parameter memory function is only required when the page attribute is the parameter storage attribute.
  • the controller before executing the acquisition of the initial device parameters corresponding to each parameter setting option, the controller is further configured to perform the following steps:
  • Step 121 Obtain page attributes of the device parameter setting interface.
  • Step 122 If the page attribute is a parameter storage attribute, execute the step of acquiring the initial device parameter corresponding to each parameter setting option.
  • the controller When the controller detects that the display device presents the device parameter setting interface, the controller immediately obtains the page attribute of the device parameter setting interface. It is judged whether the page attribute of the device parameter setting interface is a parameter storage attribute, that is, it is judged whether the parameter memory process needs to be performed on the device parameter setting interface.
  • the parameter storage attribute is used to indicate that the parameter memory process needs to be executed. Therefore, if it is judged that the page attribute of the device parameter setting interface is the parameter storage attribute, it means that the current device parameter device interface needs to perform parameter memory. At this time, the controller can Get the initial device parameters corresponding to each parameter setting option.
  • the controller After the controller obtains the initial device parameters corresponding to each parameter setting option when entering the device parameter setting interface, the controller can store the corresponding initial device parameters in the temporary storage area in the controller, that is, the temporary data cache.
  • the controller memorizes the initial equipment parameters corresponding to each parameter setting option, which can ensure that after the subsequent parameter adjustment, it can be adjusted according to The user's recovery operation restores the parameters corresponding to the corresponding parameter setting options to the "initial" state, providing users with a more intelligent functional experience.
  • the user when restoring the device parameters to the "initial" state, the user can restore the parameters corresponding to all the parameter setting options uniformly, or can only restore the parameters corresponding to a certain parameter setting option (specified parameter setting option) to restore. Therefore, in order to facilitate the process of individually restoring parameters, when the controller stores the acquired initial equipment parameters, it can be stored in the form of an option parameter comparison table, so that the controller can accurately obtain the initial equipment corresponding to the specified parameter setting options. parameter.
  • the controller in order to facilitate the controller to perform the process of individually restoring parameters, is further configured to perform the following steps when storing the initial device parameters corresponding to each parameter setting option in the temporary data cache:
  • Step 1311 based on each parameter device option and each corresponding initial device parameter, generate an option parameter comparison list.
  • Step 1312 Store the option parameter comparison list in the temporary data cache.
  • the controller After acquiring the initial device parameters of each parameter device option, the controller can establish a one-to-one correspondence between each parameter setting option and each corresponding initial device parameter. Based on the one-to-one correspondence, an option parameter comparison table is established.
  • the option parameter comparison table includes one-to-one corresponding parameter setting options and initial device parameters.
  • FIG. 10( a ) exemplarily shows a schematic diagram of an option parameter comparison list according to some embodiments.
  • parameter setting option 1 corresponds to initial equipment parameter 1
  • parameter setting option 2 corresponds to initial equipment parameter 2
  • parameter setting option 3 corresponds to initial equipment parameter 3
  • parameter setting option n corresponds to initial equipment parameter 3.
  • the user in addition to restoring the device parameters to the "initial" state, the user can also restore the device parameters to the factory parameters, that is, perform a factory reset.
  • the controller is further configured as:
  • Step 1321 Obtain the factory equipment parameters of each parameter equipment option.
  • Step 1322 Generate an option parameter comparison list based on each parameter device option and the corresponding initial device parameters and factory device parameters.
  • Step 1323 Store the option parameter comparison list in the temporary data cache.
  • the factory device parameters of each parameter setting option need to be obtained.
  • the storage area of the controller in which the parameters of the factory equipment are pre-stored can be retrieved immediately when needed.
  • the controller needs to establish a one-to-one correspondence between each parameter setting option and each corresponding initial device parameter and factory device parameter. Based on the one-to-one correspondence, an option parameter comparison table is established.
  • the option parameter comparison table includes one-to-one corresponding parameter setting options, initial equipment parameters and factory equipment parameters.
  • FIG. 10(b) exemplarily shows another schematic diagram of an option parameter comparison list according to some embodiments.
  • the parameter setting option 1 corresponds to the initial equipment parameter 1 and the factory equipment parameter 1
  • the parameter setting option 2 corresponds to the initial equipment parameter 2 and the factory equipment parameter 2
  • the parameter setting option 3 corresponds to the initial equipment parameter 2 Device parameter 3, factory device parameter 3
  • parameter setting option n corresponds to initial device parameter n, factory device parameter n, and so on.
  • the controller when the method for memorizing device parameters of the display device is executed, acquires the initial value corresponding to each parameter setting option when the controller responds to the parameter setting instruction and presents the device parameter setting interface on the display.
  • Device parameters are stored in a temporary data cache.
  • the display device provides a parameter memory function.
  • the initial device parameters corresponding to each parameter setting option in the interface are memorized, which can ensure that after the subsequent parameter adjustment, the user can restore the operation according to the user's recovery operation.
  • the parameters corresponding to the corresponding parameter setting options can be restored to the "initial" state with one click, providing users with a more intelligent functional experience.
  • FIG. 11 exemplarily shows a flowchart of a method for restoring device parameters of a display device according to some embodiments.
  • a display device comprising: a display configured to present a system setting button The system homepage and the device parameter setting interface of the device; the controller is connected to the display, see Figure 11, when the method for restoring the device parameters of the display device is executed, the controller is configured to perform the following steps:
  • a device parameter setting interface is generated, and the device parameter setting interface presents a parameter recovery button and several parameter setting options for realizing parameter setting of different functions.
  • step S11 For the relevant implementation process of presenting the device parameter setting interface on the display, reference may be made to the content of step S11 in the foregoing embodiment, which will not be repeated here.
  • a parameter recovery button is displayed in the device parameter setting interface.
  • the corresponding parameter recovery operation can be performed, which is convenient and quick.
  • the parameter recovery button is displayed at the bottom of the device parameter setting interface, that is, in the prompt box of the operation guide.
  • an operation prompt can be displayed on the side of the parameter recovery button.
  • the parameter recovery buttons include an initial parameter recovery button and a factory parameter recovery button.
  • the initial parameter recovery button is used to restore the adjusted parameters corresponding to each parameter setting option to the original equipment parameters.
  • the operation prompt content that can be displayed can be "restore to the parameters before adjustment”;
  • the factory parameter restore button is used to restore the adjusted parameters corresponding to each parameter setting option to the factory state.
  • the content of the operation prompt can be "restore to factory default”.
  • the user After the user adjusts the parameters corresponding to each parameter setting option presented in the device parameter setting interface, if the picture effect presented after the parameter adjustment is not the user's ideal state, that is, when there is a problem with the parameter setting, the user can trigger the parameter recovery. button, at this time, the parameter recovery command will be generated.
  • the controller After the controller receives the parameter restoration instruction, it can perform the parameter restoration operation, that is, obtain the initialization parameters corresponding to each parameter setting option, so as to restore the parameters of the adjusted parameter setting option.
  • the initialization parameters include initial equipment parameters and factory equipment parameters. The initial equipment parameters are used to restore to the "initial" state, and the factory equipment parameters are used to restore to the factory state.
  • the parameter recovery button includes two implementation forms, there are also two recovery methods when performing the parameter recovery operation, one is to restore the adjusted parameters to the "initial" state before adjustment, and the other is to restore the The adjusted parameters are restored to the factory state.
  • the initialization parameters are the initial device parameters
  • the controller executes In response to the parameter recovery instruction generated by the user triggering the parameter recovery button, the initialization parameters corresponding to each parameter setting option are obtained, and the initialization parameters are further configured to: in response to the initial parameter recovery instruction generated by the user triggering the initial parameter recovery button, obtain in the temporary data cache The initial device parameters corresponding to each parameter setting option.
  • the controller executes the initial parameter restoration command, and needs to obtain the initial Device parameters.
  • the initial device parameters are stored in the temporary data cache. Therefore, the controller obtains the initial device parameters corresponding to each parameter setting option in the temporary data cache, so as to facilitate the subsequent restoration of the adjusted parameters to the "initial" state.
  • the initialization parameters are the factory parameters
  • the controller executes the parameters in response to the user triggering the parameters.
  • the parameter restoration command generated by the restore button obtains the initialization parameters corresponding to each parameter setting option, and is further configured as: in response to the factory parameter restoration command generated by the user triggering the factory parameter restoration button, obtain each parameter setting option in the system cache corresponding to factory parameters.
  • the controller executes the factory parameter restore command, and needs to obtain the factory parameter restore command.
  • Device parameters If the user wants to restore the parameters corresponding to each parameter setting option to the factory state, that is, restore the default factory setting state, the user triggers the factory parameter restore button, and then generates the factory parameter restore command, the controller executes the factory parameter restore command, and needs to obtain the factory parameter restore command.
  • Device parameters If the user wants to restore the parameters corresponding to each parameter setting option to the factory state, that is, restore the default factory setting state, the user triggers the factory parameter restore button, and then generates the factory parameter restore command, the controller executes the factory parameter restore command, and needs to obtain the factory parameter restore command.
  • the factory equipment parameters are stored in the storage area of the controller, and the controller can directly recall the factory equipment parameters corresponding to each parameter setting option, which is convenient for subsequent restoration of the adjusted parameters to the factory state.
  • the controller After the controller obtains the initialization parameters corresponding to each parameter setting option, it can restore the adjusted current device parameters to the initialization parameters to realize the parameter recovery operation.
  • the initialization parameters include initial equipment parameters and factory equipment parameters.
  • the controller obtains the initial device parameters according to the instruction, it can restore the current device parameters corresponding to the parameter setting options after parameter adjustment to the "initial" state, that is, the parameters before adjustment, so as to realize the picture effect before adjustment.
  • the controller When the controller obtains the parameters of the factory equipment according to the instruction, it can restore the current equipment parameters corresponding to the parameter setting options after parameter adjustment to the factory state.
  • the parameter recovery button is displayed in the device parameter setting interface, that is, when the parameter recovery button is triggered, the corresponding parameter recovery operation can be performed on the parameters corresponding to all the parameter setting options presented in the device parameter setting interface. . That is to say, the foregoing embodiments can perform the recovery effect of "unified memory, unified recovery" of device parameters.
  • the parameters in the specified parameter setting options can also be individually restored.
  • the user clicks the specified parameter setting option that is, the option setting interface is presented on the display.
  • This option setting interface includes different parameters that need to be adjusted.
  • FIG. 12 exemplarily shows a schematic diagram of an equalizer setting interface according to some embodiments.
  • the option setting interface generated at this time is the equalizer setting interface.
  • different refinement parameters that need to be adjusted are displayed, for example, parameters corresponding to 120Hz, parameters corresponding to 500Hz, parameters corresponding to 1.5KHz, parameters corresponding to 5KHz, parameters corresponding to 10KHz, etc.
  • the option setting interface only occupies a part of the display and does not block the original image in the display. Therefore, the user can view the original image synchronously with the parameter adjustment of the specified parameter setting option. If the user is not satisfied with the real-time changing picture effect, the parameter of the specified parameter setting option can be restored separately.
  • an option parameter restoration button is presented in the option setting interface, and the option parameter restoration button can realize the restoration effect of individually restoring only the parameters of the specified parameter setting option.
  • FIG. 13 exemplarily shows a flowchart of a method for obtaining initialization parameters according to some embodiments. Therefore, in this application scenario of individual restoration, referring to FIG. 13 , the controller obtains the initialization parameters corresponding to each parameter setting option by executing the parameter restoration instruction generated in response to the user triggering the parameter restoration button, and is further configured to execute the following Describe the steps:
  • the option parameter setting instruction is generated when the specified parameter setting option is triggered, and the option setting interface is displayed on the display.
  • the option setting interface can be overlaid on the device parameter setting interface, but will not block the original picture in the display.
  • option setting interface various refinement parameters and option parameter recovery buttons that need to be adjusted are presented. If the user is not satisfied with the picture effect after adjustment of each refinement parameter, he can trigger the option parameter recovery button to perform the individual parameter recovery operation.
  • the user triggers the option parameter restoration button an option parameter restoration instruction is generated, and the controller can obtain the corresponding initialization parameters after receiving the option parameter restoration instruction.
  • the option parameter restore button includes an initial parameter restore button and a factory parameter restore button.
  • the function is the same as the initial parameter restore button and the factory parameter restore button presented in the device parameter setting interface.
  • the display device in order to quickly retrieve the corresponding initialization parameters when restoring individual parameters, stores each initialization parameter in the temporary data cache in the form of an option parameter comparison list when the parameters are memorized. Therefore, the controller can obtain the option parameter comparison list in the temporary data cache when the individual recovery process is performed.
  • the option parameter comparison list is presented in two forms, one is including one-to-one corresponding parameter setting options and initial device parameters, and the other is Including one-to-one corresponding parameter setting options, initial device parameters, and initial factory parameters.
  • the controller can select the corresponding initialization parameters in the option parameter comparison list based on the specified parameter setting options; to restore to the "initial" state,
  • the initialization parameters are the initial device parameters, and based on the initial device parameters, the adjusted current device parameters of the specified parameter setting options are restored to the initial device parameters, so as to achieve the effect of restoring the parameters of the specified parameter setting options individually.
  • the controller can select corresponding initialization parameters in the option parameter comparison list based on the specified parameter setting options. If you want to restore to the factory state, the initialization parameters are the initial factory parameters, and based on the initial factory parameters, the adjusted current device parameters of the specified parameter setting options are restored to the initial factory parameters, and the parameters of the specified parameter setting options can be restored individually. .
  • the display device provided by the embodiment of the present invention can perform unified parameter recovery of all parameter setting options based on the device parameter setting interface when performing parameter recovery, and can also perform individual recovery of the parameters of the specified parameter setting option based on the option setting interface. .
  • parameter recovery methods users are provided with more abundant parameter recovery options, and the user experience is better.
  • a parameter adjustment comparison chart may be presented in the option setting interface when adjusting the parameter.
  • the controller when performing parameter recovery, is further configured to perform the following steps:
  • Step 241 Obtain initial device parameters and current device parameters generated after the user adjusts the parameters of the specified parameter setting options based on the option setting interface.
  • Step 242 based on the current equipment parameters and the initial equipment parameters, generate a parameter adjustment comparison chart, and display it in the option setting interface.
  • the controller obtains the initial equipment parameters and the current equipment parameters adjusted by the user, and based on the deviation degree of the two parameters, generates a parameter adjustment comparison chart, and displays it in the option setting interface to remind the user.
  • the parameter adjustment comparison chart can also present the initial device parameters of the specified parameter setting options to the user, and the user can adjust the current device parameters based on the initial device parameters, so that the user can manually restore the current device parameters to the initial device parameters.
  • FIG. 14( a ) exemplarily shows a schematic diagram of a parameter adjustment control diagram according to some embodiments.
  • FIG. 14( a ) exemplarily shows a parameter adjustment comparison diagram generated when the brightness parameter is adjusted.
  • the thin solid line in the parameter adjustment comparison diagram is the initial device parameter, that is, the brightness parameter before adjustment;
  • the thin solid line with a circle is the current device parameter, that is, the device parameter adjusted by the user in real time.
  • the thin solid line with a circle in the parameter adjustment control diagram will produce corresponding changes, such as moving up and down.
  • FIG. 14(b) exemplifies another schematic diagram of a parameter adjustment control diagram according to some embodiments.
  • the parameter setting option is designated as the equalizer setting option
  • FIG. 14(b) exemplarily shows a parameter adjustment comparison graph generated when the equalizer parameters are adjusted.
  • the dotted box in the parameter adjustment comparison diagram is the initial device parameter, that is, the equalizer parameter before adjustment; the solid box is the current device parameter, that is, the device parameter adjusted by the user in real time.
  • the solid boxes in the parameter adjustment control diagram will change accordingly, such as moving up and down.
  • the controller when the method for restoring the device parameters of the display device is executed, the controller obtains each parameter setting in response to the parameter restoration instruction generated by the user triggering the parameter restoration button presented in the device parameter setting interface.
  • the initialization parameters corresponding to the options based on the initialization parameters corresponding to each parameter setting option, restore the current device parameters corresponding to the parameter device options after parameter adjustment to the initialization parameters.
  • the display device can restore the parameters corresponding to the corresponding parameter setting options to the "initial" state with one click based on the initial device information stored when entering the device parameter setting interface, and according to the user's recovery operation, to provide users with more intelligent functional experience.
  • FIG. 7 exemplarily shows a flowchart of a method for memorizing device parameters of a display device according to some embodiments.
  • a method for memorizing device parameters of a display device provided by an embodiment of the present invention is executed by a controller configured in the display device provided by the foregoing embodiment, and the method includes:
  • FIG. 11 exemplarily shows a flowchart of a method for restoring device parameters of a display device according to some embodiments.
  • a method for restoring device parameters of a display device provided by an embodiment of the present invention is executed by a controller configured in the display device provided by the foregoing embodiment, and the method includes:
  • a device parameter setting interface is generated, and a parameter recovery button and several parameter setting options for realizing parameter setting of different functions are presented in the device parameter setting interface;
  • a display device and a method for memorizing and restoring device parameters provided by the embodiment of the present invention
  • the controller responds to the parameter setting instruction and presents the device parameter setting interface on the display. , obtain the initial device parameters corresponding to each parameter setting option and store them in the temporary data cache.
  • the controller obtains the initialization parameters corresponding to each parameter setting option in response to the parameter recovery instruction generated by the user triggering the parameter recovery button presented in the parameter setting interface of the device; based on the initialization parameters corresponding to each parameter setting option, Restore the current device parameters corresponding to the parameter device options after parameter adjustment to the initialization parameters.
  • the display device and method provided by the embodiments of the present invention can provide a parameter memory function.
  • the initial device parameters corresponding to each parameter setting option in the interface are memorized, which can ensure that after the subsequent parameter adjustment , according to the user's recovery operation, the parameters corresponding to the corresponding parameter setting options can be restored to the "initial" state with one click, providing users with a more intelligent functional experience.
  • the user In the process of setting the parameters of the display device 200, the user is required to press the "Confirm" button on the control device to select a specific parameter option. At the same time, the display device 200 displays the screen display effect adjusted according to the parameters in real time, and the user can also observe the screen simultaneously. , so as to achieve the best choice of parameters.
  • the menu interface for providing setting options on the display device 200 occupies about 1/3 of the display area of the screen, and the remaining area for the user to observe the display effect is small, which will affect the user's visual judgment. It can be seen that the current display mode of the menu page on the display device 200 will affect the user's operation experience and visual judgment, and ultimately affect the user's parameter setting effect.
  • the Picture Mode adjustment page is displayed superimposed on the home page of the display device, and all mode options are listed, such as Dynamic mode, Standard mode , Natural (natural) mode, Game (game) mode, Sports (sports) mode, Cinema (movie) mode, Calibrated (calibrated) mode, FILMMAKER MODE (filter mode) and so on.
  • Dynamic mode Standard mode
  • Natural (natural) mode Game (game) mode
  • Sports (sports) mode Sports (sports) mode
  • Cinema (movie) mode Cinema (movie) mode
  • FILMMAKER MODE filter mode
  • the embodiment of the present application provides a display device 200, which can display some setting items used for image display effect adjustment only in the form of a window, Moreover, the display area occupied by the window is small, and the user's observation of the image display effect is not affected.
  • a user can first control the display device 200 to display the setting page, and then find the image setting page including some image setting items that can adjust the display effect on the setting page step by step.
  • a user can control the display device 200 through a control device 100 such as a remote controller, or control the display device 200 by means of voice.
  • the main page of the display device 200 is shown in FIG. 16.
  • the main page In addition to displaying some media resources A, B, C, E, F, etc., the main page usually also has some convenient entrances at the top task bar of the main page, such as "History”, “Network”, “Settings”, etc. Users can directly enter related pages by selecting these convenient entry controls. When the user needs to adjust the setting item, he can select the "setting" control on the page as shown in Fig. 16, and then input the page display instruction to the display device 200 to control the display device 200 to display the setting page.
  • the setting page in this embodiment of the present application may be as shown in FIG. 17 .
  • the Settings page includes several setting items, such as "Picture (image)”, “Sound (sound)”, “Parental Control (parental control)”, “Network&Internet (network and Internet)”, “ Accounts&Sign-ln (account and login)”, “Apps (application)”, “Device Preferences”, “Remotes&Accessories (remote control and accessories)”, etc.
  • the user may continue to select the "Picture" setting item on the setting page to input the sixth selection instruction to the display device 200, and the display device 200 may continue to display the image setting page as shown in FIG. 18 .
  • the controller 250 of the display device 200 may be configured to: control the display 260 to display the setting page in response to the page display instruction input by the user. Then, after the user inputs the sixth selection instruction, the controller 250 controls the display 260 to display the image setting page in response to the sixth selection instruction.
  • the image setting page shown in Figure 18 includes several setting items, such as “Backlight”, “Picture Mode”, “Contrast”, “Brightnes”, “Colour ( Color)”, “Tint (hue)”, “Smart Scene”, etc.
  • setting items such as "Backlight”, “Picture Mode”, “Contrast”, “Brightnes”, “Colour ( Color)”, “Tint (hue)”, “Smart Scene”, etc.
  • specific parameters or modes can be directly adjusted in some setting items, thereby adjusting the display effect of the current page of the display device 200 .
  • the display device 200 may configure an adjustment page for each of the above-mentioned setting items and each adjustment item included in the setting items.
  • each setting item corresponds to an adjustment page
  • the adjustment page includes several adjustment items under the setting item, but not all adjustment items are displayed, so as to avoid occupying too much display area.
  • the user may select a target adjustment item to adjust on the adjustment page, and at the same time as the adjustment, the display device 200 will also adjust the display effect of the currently displayed content according to the adjusted mode or parameters.
  • the user can also adjust the adjustment items again while observing the display effect, so that the display effect meets the requirements.
  • the controller 250 of the display device 200 may be configured to: after the user inputs the first selection instruction for selecting the target setting item on the image setting page , in response to the first selection instruction, the adjustment page corresponding to the target setting item is displayed in the form of a window. Then, the user continues to select the target adjustment item on the adjustment page, and then inputs a second selection instruction to the display device 200. The controller 250 continues to respond to the second selection instruction and adjusts the image display effect of the currently displayed page by using the parameters corresponding to the target adjustment item. .
  • the display device 200 may display the adjustment pages corresponding to each setting item separately in the form of a window, and the original image setting page and setting page are not displayed during the display, so as to ensure that the adjustment page is not displayed. Will block most of the displayed page.
  • the display device 200 will display some image modes in the form of a window, such as "Game", “Sports”, etc. shown in FIG. 20, while other image modes will be temporarily hidden Then, according to the user's operation of moving the focus, other undisplayed image modes are displayed one by one in turn.
  • this adjustment page that only displays some adjustment items only occupies a small part of the display area, and when the adjustment page is displayed, the upper-level setting page of the adjustment page will not be displayed. Furthermore, most of the display areas on the current display page can change the display effect, and the display effect that the user can observe is relatively obvious, so that better visual judgment can be obtained.
  • setting items that can be used to adjust the image effect on the display device 200, such as backlight setting, image mode setting, contrast setting, brightness setting, color setting, white balance setting and so on.
  • corresponding adjustment pages are configured for different setting items.
  • one setting item may correspond to only one adjustment item, such as brightness setting, contrast setting, etc.; or one setting item may also correspond to multiple adjustment items, for example, the image mode setting includes sports mode, vivid mode, movie mode, etc.
  • White balance settings include Red (red) settings, Green (green) settings, Blue (blue) settings, etc.
  • the user In the process of setting the image mode, the user only needs to select the target image mode, while in the process of setting some hues or colors, the user needs to select specific parameter values.
  • the adjustment page to be displayed by the display device 200 is the parameter adjustment page, and the parameter adjustment page includes Adjustment items for parameter settings such as hue and color.
  • the White balance adjustment page shown in Figure 21 may include Red parameter adjustment items, Green parameter adjustment items, and Blue parameter adjustment items, all of which are displayed in the form of a parameter selection bar, and, on the parameter selection bar It includes positioning controls that can locate specific parameter values, and users can select specific parameter values by moving the positioning controls. Then, the display device 200 adjusts the display effect of the currently displayed page by using the specific parameter value.
  • the controller 250 of the display device 200 may also be configured to: in response to the user's first selection instruction for selecting the target setting item, change the parameter corresponding to the target setting item The adjustment page is displayed in the form of a window. Then, in response to the user's third selection instruction for selecting the target parameter adjustment item, the focus is positioned on the position of the target parameter adjustment item, so that the user can select the target parameter on the parameter selection bar. Finally, the controller 250 adjusts the image display effect of the currently displayed page by using the target parameter in response to the fourth selection instruction of the user selecting the target parameter.
  • the user needs to realize the movement of the positioning control by means of a control device 100 such as a remote control.
  • the specific method is to control the right or left movement of the positioning control by pressing the forward or backward direction keys on the remote control. .
  • the user's operation of pressing a key may be regarded as inputting a first movement instruction to the display device 200 .
  • the controller 250 of the display device 200 may be configured to: in response to the first movement instruction, position the positioning control to the target position of the parameter selection bar. Then, the image display effect of the currently displayed page is adjusted by using the target parameter value corresponding to the target position.
  • the user can also control the movement of the positioning control by voice.
  • the user inputs the voice content “adjust the value of Red to 25” into the display device 200.
  • the display device 200 can adjust the value of the parameter on the Red parameter adjustment item.
  • the positioning control is positioned at the parameter value of 25.
  • the controller 250 of the display device 200 may also locate the positioning control to the target position in response to the first movement instruction input by the user as the voice control instruction.
  • the parameter adjustment item that the user wants to select does not appear in the content currently displayed on the adjustment page.
  • the user can realize the page turning operation of the adjustment page by controlling the control device 100 such as the remote control, for example, by pressing the up or down direction key on the remote control to control the focus to move on the adjustment page. If the current focus is positioned on the Red parameter adjustment item as shown in Figure 21, the user can press the up arrow key again to control the adjustment page to page up, and the last parameter adjustment item of the Red parameter adjustment item "level( Levels)” is displayed, as shown in Figure 23.
  • the controller 250 of the display device 200 may also be configured to: in response to the second movement instruction for moving the focus input by the user on the parameter adjustment page, adjust the parameters on the parameter adjustment page. Display content so that parameter adjustment items that are not displayed are displayed on the parameter adjustment page.
  • the user can also directly input a voice command to the display device 200.
  • the user inputs the voice content “adjust level” to the display device 200.
  • the display device 200 can control the adjustment page to display the level parameter adjustment item and focus the Locate the adjustment item.
  • the controller 250 of the display device 200 may also adjust the display content on the parameter adjustment page in response to the second movement instruction input by the user as a voice control instruction, so that the parameter adjustment items that are not displayed are displayed.
  • the adjustment page to be displayed by the display device 200 is the mode adjustment page, as shown in FIG. 20 , and
  • the mode adjustment page will include at least one image mode, such as dynamic mode, vivid mode, standard mode, etc.
  • each image mode is an adjustment item in the mode adjustment page.
  • the user can select an image mode as the target image mode on the mode adjustment page, and then the display device 200 will acquire various image display parameters corresponding to the target image mode, and then use these display parameters to adjust the display effect of the currently displayed page.
  • the controller 250 of the display device 200 may be configured to: in response to the first selection instruction for selecting the target setting item input by the user, select the mode corresponding to the target setting item The adjustment page is displayed in the form of a window. Then, in response to the fifth selection instruction for selecting the target image mode input by the user, the focus is positioned to the position of the target image mode. Finally, the display effect of the currently displayed page is adjusted by using the target image parameters corresponding to the target image mode.
  • the display device 200 will acquire the target image parameters corresponding to the standard mode.
  • the user selects the target image mode on the mode adjustment page by pressing the direction key of the remote control or the like to control the device 100, etc., to locate the focus to the position of the target image mode. It is also possible to control the focus on the display device 200 to locate the position of the target image mode by inputting voice content to the display device 200, such as "select a standard mode".
  • the image mode the user wants to select does not appear in the content currently displayed on the adjustment page.
  • the user can realize the page turning operation of the adjustment page by controlling the control device 100 such as the remote control, for example, by pressing the up or down direction key on the remote control to control the focus to move on the adjustment page. If the current focus is positioned on the standard mode as shown in Figure 20, the user can press the up arrow key again to control the adjustment page to page up and display the Natural mode before the standard mode, as shown in Figure 26.
  • the controller 250 of the display device 200 may be further configured to: in response to the third movement instruction for moving the focus input by the user on the mode adjustment page, adjust the Display the content so that the undisplayed image mode is displayed on the mode adjustment page.
  • the user can also directly input a voice command to the display device 200.
  • the user inputs the voice content "select Game mode" to the display device 200.
  • the display device 200 can control the adjustment page to display the Game mode and position the focus. to this adjustment.
  • the controller 250 of the display device 200 may also adjust the display content on the mode adjustment page in response to the third movement instruction input by the user as the voice control instruction, so that the image modes that are not displayed are displayed on the mode adjustment page. displayed above.
  • the display device 200 in order to accurately display different types of adjustment pages, after receiving the first selection instruction input by the user, the display device 200 also needs to detect the type of the target setting item selected by the user, and then set the item according to the target.
  • the type of item determines how each adjustment page is displayed, such as whether adjustment items with a parameter selection bar need to be displayed, etc.
  • target setting items may include independent setting items and composite setting items.
  • Independent setting items refer to the setting items that do not have a corresponding adjustment page, and can be controlled only on the current setting item, such as the "Smart Scene" setting item shown in Figure 18. This setting item does not need to adjust parameters or has The next-level page, the user operates on it just opens or closes.
  • the display device 200 can directly control the opening or closing of the target setting item according to the user's operation.
  • the composite setting item is a setting item corresponding to a variety of setting options, such as the aforementioned image mode setting item, the next-level adjustment page has multiple selectable image modes; or, for example, the aforementioned white balance setting item,
  • the lower level adjustment page has multiple parameter adjustment items.
  • the display device 200 may display its corresponding adjustment page in the form of a window, and only display part of the adjustment items in the window to avoid occupying too much display area.
  • the controller 250 of the display device 200 may be further configured to: in response to the first selection instruction, detect whether the target setting item has the following One level adjustment page. And, in the case that the target setting item has a lower-level adjustment page, the adjustment page corresponding to the target setting item is displayed in the form of a window. And, in the case that the target setting item does not have a next-level adjustment page, in response to an adjustment instruction input by the user on the target setting item, the target setting item is controlled to be turned on or off.
  • the display device 200 can directly select The parameter selection bar corresponding to these setting items is displayed on the adjustment page, and there is only one adjustment item in the adjustment page.
  • the controller 250 of the display device 200 may be further configured to: in response to the first selection instruction, detect whether the target setting item itself has Parameter selection bar. And, in the case where the object setting item itself has a parameter selection bar, only the parameter selection bar is displayed in the adjustment page displayed in the form of a window.
  • the display device 200 in the embodiment of the present application can display the adjustment page corresponding to the target setting item in the form of a window, so as to avoid the large-area display of the adjustment page from obscuring other content on the display page, thereby affecting the user. Observations for other content.
  • the user can adjust some adjustment items on the adjustment page to change the display parameters of the image, and the display device 200 will also use the changed display parameters to adjust the current display effect.
  • the user can adjust the parameters while observing the display effect until the display until the effect is satisfactory.
  • the pages on the display device 200 that can be used to adjust the image display effect are not limited to the image setting page.
  • the image setting pages mentioned in the above embodiments of this application only refer to some functional pages that can set the image mode, parameters, etc., and the same applies to other functional pages that can adjust the display effects such as image mode, contrast, brightness, color, etc. In the scheme of the above-mentioned embodiment of this application.
  • the display mode of the adjustment page on the display device 200 in the embodiment of the present application does not occupy too much display space, which can not only ensure the user's adjustment of the display effect, but also ensure that the user can directly observe the display effect.
  • the embodiment of the present application also provides a page display method, which can be applied to the display device 200 in the foregoing embodiment. , and implemented by the controller 250 in the display device 200 .
  • the method may specifically include the following steps: in response to a first selection instruction for selecting a target setting item input by the user on the image setting page, displaying the adjustment page corresponding to the target setting item in the form of a window;
  • the second selection instruction for selecting the target adjustment item inputted on the above is used to adjust the image display effect of the currently displayed page by using the parameters corresponding to the target adjustment item.
  • the present invention also provides a computer storage medium, wherein the computer storage medium can store a program, and when the program is executed, it can include various embodiments of the method for memorizing and restoring the device parameters of the display device provided by the present invention some or all of the steps in .
  • the storage medium may be a magnetic disk, an optical disk, a read-only memory (English: read-only memory, abbreviated as: ROM) or a random access memory (English: random access memory, abbreviated as: RAM) and the like.
  • the technology in the embodiments of the present invention can be implemented by means of software plus a necessary general hardware platform.
  • the technical solutions in the embodiments of the present invention may be embodied in the form of software products in essence or the parts that make contributions to the prior art, and the computer software products may be stored in a storage medium, such as ROM/RAM , magnetic disk, optical disk, etc., including several instructions for causing a computer device (which may be a personal computer, a server, or a network device, etc.) to execute the methods described in various embodiments or some parts of the embodiments of the present invention.
  • a computer device which may be a personal computer, a server, or a network device, etc.

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Abstract

本申请公开了一种显示设备及其设备参数的记忆方法、恢复方法,在参数记忆时,控制器响应于参数设置指令生成设备参数设置界面时,获取每个参数设置选项对应的初始设备参数并存储。在参数恢复时,控制器响应于用户触发参数恢复按钮产生的参数恢复指令,获取每个参数设置选项对应的初始化参数,将经过参数调整后的参数设备选项对应的当前设备参数恢复至初始化参数。

Description

一种显示设备及其设备参数的记忆方法、恢复方法
本公开要求在2020年11月23日提交、申请号为202011323229.0;在2021年4月23日提交、申请号为202110442361.1的中国专利申请的优先权,其全部内容通过引用结合在本公开中.
技术领域
本申请涉及显示技术领域,尤其涉及一种显示设备及其设备参数的记忆方法、恢复方法。
背景技术
随着显示设备的快速发展,显示设备的功能将越来越丰富,性能也越来越强大,目前,显示设备包括智能电视、智能机顶盒、智能盒子,以及带有智能显示屏幕的产品等。以智能电视为例,为便于提供良好的用户体验,智能电视通常提供设备参数设置功能,以使用户进行个性化设置,设备参数包括画质、声音、网络等方面的参数。
发明内容
第一方面,本申请提供了一种显示设备,包括:
显示器,被配置为呈现展示有系统设置按钮的系统主页和设备参数设置界面;
与所述显示器连接的控制器,所述控制器被配置为:
响应于用户触发系统设置按钮产生的参数设置指令,生成设备参数设置界面,所述设备参数设置界面中呈现有数个用于实现对不同功能进行参数设置的参数设置选项;
获取每个所述参数设置选项对应的初始设备参数,所述初始设备参数是指对设备参数进行调整前对应的历史设置参数;
将每个所述参数设置选项对应的初始设备参数存储至临时数据缓存中。
附图说明
为了更清楚地说明本申请的技术方案,下面将对实施例中所需要使用的附图作简单地介绍,显而易见地,对于本领域普通技术人员而言,在不付出创造性劳动性的前提下,还可以根据这些附图获得其他的附图。
图1中示例性示出了根据一些实施例的显示设备与控制装置之间操作场景的示意图;
图2中示例性示出了根据一些实施例的显示设备200的硬件配置框图;
图3中示例性示出了根据一些实施例的控制设备100的硬件配置框图;
图4中示例性示出了根据一些实施例的显示设备200中软件配置示意图;
图5中示例性示出了根据一些实施例的显示设备200中应用程序的图标控件界面显示示意图;
图6中示例性示出了根据一些实施例的参数记忆恢复方法的数据流图;
图7中示例性示出了根据一些实施例的显示设备的设备参数的记忆方法的流程图;
图8中示例性示出了根据一些实施例的设备参数设置界面的显示示意图;
图9中示例性示出了根据一些实施例的设备参数设置界面的示意图;
图10(a)中示例性示出了根据一些实施例的选项参数对照列表的一种示意图;
图10(b)中示例性示出了根据一些实施例的选项参数对照列表的另一种示意图;
图11中示例性示出了根据一些实施例的显示设备的设备参数的恢复方法的流程图;
图12中示例性示出了根据一些实施例的均衡器设置界面的示意图;
图13中示例性示出了根据一些实施例的获取初始化参数的方法流程图;
图14(a)中示例性示出了根据一些实施例的参数调整对照图的一种示意图;
图14(b)中示例性示出了根据一些实施例的参数调整对照图的另一种示意图;
图15示出了根据一些实施例的图像模式调整页面的一种示意图;
图16示出了根据一些实施例的显示设备200主页面的示意图;
图17示出了根据一些实施例的设置页面的示意图;
图18示出了根据一些实施例的图像设置页面的示意图;
图19示出了根据一些实施例的显示设备200的一种显示流程图;
图20示出了根据一些实施例的图像模式调整页面的第二种示意图;
图21示出了根据一些实施例的白平衡调整页面的一种示意图;
图22示出了根据一些实施例的显示设备200的第二种显示流程图;
图23示出了根据一些实施例的白平衡调整页面的另一种示意图;
图24示出了根据一些实施例的显示设备200的第三种显示流程图;
图25示出了根据一些实施例的显示设备200的第四种显示流程图;
图26示出了根据一些实施例的图像模式调整页面的第三种示意图;
图27示出了根据一些实施例的显示设备200的第五种显示流程图;
图28示出了根据一些实施例的显示设备200的第六种显示流程图;
图29示出了根据一些实施例的显示设备200的第七种显示流程图。
具体实施方式
基于本公开描述的示例性实施例,本领域普通技术人员在没有作出创造性劳动前提下所获得的所有其他实施例,都属于本公开所附权利要求保护的范围。此外,虽然本公开中公开内容按照示范性一个或几个实例来介绍,但应理解,可以就这些公开内容的各个方面也可以单独构成一个完整实施方式。
需要说明的是,本公开中对于术语的简要说明,仅是为了方便理解接下来描述的实施方式,而不是意图限定本公开的实施方式。除非另有说明,这些术语应当按照其普通和通常的含义理解。
本公开中说明书和权利要求书及上述附图中的术语“第一”、“第二”、“第三”等是用于区别类似或同类的对象或实体,而不必然意味着限定特定的顺序或先后次序,除非另外注明(Unless otherwise indicated)。应该理解这样使用的用语在适当情况下可以互换,例如能够根据本公开实施例图示或描述中给出那些以外的顺序实施。
此外,术语“包括”和“具有”以及他们的任何变形,意图在于覆盖但不排他的包含,例如,包含了一系列组件的产品或设备不必限于清楚地列出的那些组件,而是可包括没有清楚地列出的或对于这些产品或设备固有的其它组件。
本公开中使用的术语“遥控器”,是指电子设备(如本公开中公开的显示设备)的一个组件,通常可在较短的距离范围内无线控制电子设备。一般使用红外线和/或射频(RF)信号和/或蓝牙与电子设备连接,也可以包括WiFi、无线USB、蓝牙、动作传感器等功能模块。例如:手持式触摸遥控器,是以触摸屏中用户界面取代一般遥控装置中的大部分物理内置硬键。
本公开中使用的术语“手势”,是指用户通过一种手型的变化或手部运动等动作,用于表达预期想法、动作、目的/或结果的用户行为。
图1中示出了根据实施例中显示设备与控制装置之间操作场景的示意图。如图1中示出,用户可通过移动终端300和控制装置100操作显示设备200。
在一些实施例中,控制装置100可以是遥控器,遥控器和显示设备的通信包括红外协议通信或蓝牙协议通信,及其他短距离通信方式等,通过无线或其他有线方式来控制显示设备200。用户可以通过遥控器上按键,语音输入、控制面板输入等输入用户指令,来控制显示设备200。如:用户可以通过遥控器上音量加减键、频道控制键、上/下/左/右的移动按键、语音输入按键、菜单键、开关机按键等输入相应控制指令,来实现控制显示设备200的功能。
在一些实施例中,也可以使用移动终端、平板电脑、计算机、笔记本电脑、和其他智能设备以控制显示设备200。例如,使用在智能设备上运行的应用程序控制显示设备200。该应用程序通过配置可以在与智能设备关联的屏幕上,在直观的用户界面(UI)中为用户提供各种控制。
在一些实施例中,移动终端300可与显示设备200安装软件应用,通过网络通信协议实现连接通信,实现一对一控制操作的和数据通信的目的。如:可以实现用移动终端300与显示设备200建立控制指令协议,将遥控控制键盘同步到移动终端300上,通过控制移动终端300上用户界面,实现控制显示设备200的功能。也可以将移动终端300上显示音视频内容传输到显示设备200上,实现同步显示功能。
如图1中还示出,显示设备200还与服务器400通过多种通信方式进行数据通信。可允许显示设备200通过局域网(LAN)、无线局域网(WLAN)和其他网络进行通信连接。服务器400可以向显示设备200提供各种内容和互动。示例的,显示设备200通过发送和接收信息,以及电子节目指南(EPG)互动,接收软件程序更新,或访问远程储存的数字媒体库。服务器400可以是一个集群,也可以是多个集群,可以包括一类或多类服务器。通过服务器400提供视频点播和广告服务等其他网络服务内容。
显示设备200,可以液晶显示器、OLED显示器、投影显示设备。具体显示设备类型,尺寸大小和分辨率等不作限定,本领技术人员可以理解的是,显示设备200可以根据需要做性能和配置上一些改变。
显示设备200除了提供广播接收电视功能之外,还可以附加提供计算机支持功能的智能网络电视功能,包括但不限于,网络电视、智能电视、互联网协议电视(IPTV)等。
图2中示出了根据示例性实施例中显示设备200的硬件配置框图。
在一些实施例中,显示设备200中包括控制器250、调谐解调器210、通信器220、检测器230、输入/输出接口255、显示器275,音频输出接口285、存储器260、供电电源290、用户接口265、外部装置接口240中的至少一种。
在一些实施例中,显示器275,用于接收源自第一处理器输出的图像信号,进行显示视频内容和图像以及菜单操控界面的组件。
在一些实施例中,显示器275,包括用于呈现画面的显示屏组件,以及驱动图像显示的驱动组件。
在一些实施例中,显示视频内容,可以来自广播电视内容,也可以是说,可通过有线或无线通信协议接收的各种广播信号。或者,可显示来自网络通信协议接收来自网络服务器端发送的各种图像内容。
在一些实施例中,显示器275用于呈现显示设备200中产生且用于控制显示设备200的用户操控UI界面。
在一些实施例中,根据显示器275类型不同,还包括用于驱动显示的驱动组件。
在一些实施例中,显示器275为一种投影显示器,还可以包括一种投影装置和投影屏幕。
在一些实施例中,通信器220是用于根据各种通信协议类型与外部设备或外部服务器进行通信的组件。例如:通信器可以包括Wifi芯片,蓝牙通信协议芯片,有线以太网通信协议芯片等其他网络通信协议芯片或近场通信协议芯片,以及红外接收器中的至少一种。
在一些实施例中,显示设备200可以通过通信器220与外部控制设备100或内容提供设备之间建立控制信号和数据信号发送和接收。
在一些实施例中,用户接口265,可用于接收控制装置100(如:红外遥控器等)红外控制信号。
在一些实施例中,检测器230是显示设备200用于采集外部环境或与外部交互的信号。
在一些实施例中,检测器230包括光接收器,用于采集环境光线强度的传感器,可以通过采集环境光可以自适应性显示参数变化等。
在一些实施例中,检测器230还可以包括图像采集器,如相机、摄像头等,可以用于采集外部环境场景,以及用于采集用户的属性或与用户交互手势,可以自适应变化显示参数,也可以识别用户手势,以实现与用户之间互动的功能。
在一些实施例中,检测器230还可以包括温度传感器等,如通过感测环境温度。
在一些实施例中,显示设备200可自适应调整图像的显示色温。如当温度偏高的环境时,可调整显示设备200显示图像色温偏冷色调,或当温度偏低的环境时,可以调整显示设备200显示图像偏暖色调。
在一些实施例中,检测器230还可声音采集器等,如麦克风,可以用于接收用户的声音。示例性的,包括用户控制显示设备200的控制指令的语音信号,或采集环境声音,用于识别环境场景类型,使得显示设备200可以自适应环境噪声。
在一些实施例中,如图2所示,输入/输出接口255被配置为,可进行控制器250与外部其他设备或其他控制器250之间的数据传输。如接收外部设备的视频信号数据和音频信号数据、或命令指令数据等。
在一些实施例中,外部装置接口240可以包括,但不限于如下:可以高清多媒体接口HDMI接口、模拟或数据高清分量输入接口、复合视频输入接口、USB输入接口、RGB端口等任一个或多个接口。也可以是上述多个接口形成复合性的输入/输出接口。
在一些实施例中,如图2所示,调谐解调器210被配置为,通过有线或无线接收方式接收广播电视信号,可以进行放大、混频和谐振等调制解调处理,从多个无线或有线广播电视信号中解调出音视频信号,该音视频信号可以包括用户所选择电视频道频率中所携带的电视音视频信号,以及EPG数据信号。
在一些实施例中,调谐解调器210解调的频点受到控制器250的控制,控制器250可根据用户选择发出控制信号,以使的调制解调器响应用户选择的电视信号频率以及调制解调该频率所携带的电视信号。
在一些实施例中,控制器250和调谐解调器210可以位于不同的分体设备中,即调谐解调器210也可在控制器250所在的主体设备的外置设备中,如外置机顶盒等。这样,机顶盒将接收到的广播电视信号调制解调后的电视音视频信号输出给主体设备,主体设备经过第一输入/输出接口接收音视频信号。
在一些实施例中,控制器250,通过存储在存储器上中各种软件控制程序,来控制显示设备的工作和响应用户的操作。控制器250可以控制显示设备200的整体操作。例如:响应于接收到用于选择在显示器275上显示UI对象的用户命令,控制器250便可以执行与由用户命令选择的对象有关的操作。
如图2所示,控制器250包括随机存取存储器251(Random Access Memory,RAM)、只读存储器252(Read-Only Memory,ROM)、视频处理器270、音频处理器280、其他处理器253(例如:图形处理器(Graphics Processing Unit,GPU)、中央处理器254(Central Processing Unit,CPU)、通信接口(Communication Interface),以及通信总线256(Bus)中的至少一种。其中,通信总线连接各个部件。
在一些实施例中,在收到开机信号时,显示设备200电源开始启动,CPU运行ROM 252中系统启动指令,将存储在存储器的操作系统的临时数据拷贝至RAM 251中,以便于启动或运行操作系统。当操作系统启动完成后,CPU再将存储器中各种应用程序的临时数据拷贝至RAM 251中,然后,以便于启动或运行各种应用程序。
在一些实施例中,CPU处理器254,用于执行存储在存储器中操作系统和应用程序指令。以及根据接收外部输入的各种交互指令,来执行各种应用程序、数据和内容,以便最终显示和播放各种音视频内容。
在一些示例性实施例中,CPU处理器254,可以包括多个处理器。多个处理器可包括一个主处理器以及一个或多个子处理器。主处理器,用于在预加电模式中执行显示设备200一些操作,和/或在正常模式下显示画面的操作。一个或多个子处理器,用于在待机模式等状态下一种操作。
在一些实施例中,图形处理器253,用于产生各种图形对象,如:图标、操作菜单、以及用户输入指令显示图形等。包括运算器,通过接收用户输入各种交互指令进行运算,根据显示属性显示各种对象。以及包括渲染器,对基于运算器得到的各种对象,进行渲染,上述渲染后的对象用于显示在显示器上。
在一些实施例中,视频处理器270被配置为将接收外部视频信号,根据输入信号的标准编解码协议,进行视频处理,可得到直接可显示设备200上显示或播放的信号。
在一些实施例中,视频处理器270,包括解复用模块、视频解码模块、图像合成模块、帧率转换模块、显示格式化模块等。
在一些实施例中,图形处理器253可以和视频处理器可以集成设置,也可以分开 设置,集成设置的时候可以执行输出给显示器的图形信号的处理,分离设置的时候可以分别执行不同的功能,例如GPU+FRC(Frame Rate Conversion))架构。
在一些实施例中,音频处理器280,用于接收外部的音频信号,根据输入信号的标准编解码协议,进行解压缩和解码,以及降噪、数模转换、和放大处理等处理,得到可以在扬声器中播放的声音信号。
在一些实施例中,视频处理器270可以包括一颗或多颗芯片组成。音频处理器,也可以包括一颗或多颗芯片组成。
在一些实施例中,视频处理器270和音频处理器280,可以单独的芯片,也可以于控制器一起集成在一颗或多颗芯片中。
在一些实施例中,音频输出,在控制器250的控制下接收音频处理器280输出的声音信号,如:扬声器286,以及除了显示设备200自身携带的扬声器之外,可以输出至外接设备的发生装置的外接音响输出端子,如:外接音响接口或耳机接口等,还可以包括通信接口中的近距离通信模块,例如:用于进行蓝牙扬声器声音输出的蓝牙模块。
供电电源290,在控制器250控制下,将外部电源输入的电力为显示设备200提供电源供电支持。供电电源290可以包括安装显示设备200内部的内置电源电路,也可以是安装在显示设备200外部电源,在显示设备200中提供外接电源的电源接口。
用户接口265,用于接收用户的输入信号,然后,将接收用户输入信号发送给控制器250。用户输入信号可以是通过红外接收器接收的遥控器信号,可以通过网络通信模块接收各种用户控制信号。
在一些实施例中,用户通过控制装置100或移动终端300输入用户命令,用户输入接口则根据用户的输入,显示设备200则通过控制器250响应用户的输入。
在一些实施例中,用户可在显示器275上显示的图形用户界面(GUI)输入用户命令,则用户输入接口通过图形用户界面(GUI)接收用户输入命令。或者,用户可通过输入特定的声音或手势进行输入用户命令,则用户输入接口通过传感器识别出声音或手势,来接收用户输入命令。
存储器260,包括存储用于驱动显示设备200的各种软件模块。如:第一存储器中存储的各种软件模块,包括:基础模块、检测模块、通信模块、显示控制模块、浏览器模块、和各种服务模块等中的至少一种。
基础模块用于显示设备200中各个硬件之间信号通信、并向上层模块发送处理和控制信号的底层软件模块。检测模块用于从各种传感器或用户输入接口中收集各种信息,并进行数模转换以及分析管理的管理模块。
例如,语音识别模块中包括语音解析模块和语音指令数据库模块。显示控制模块用于控制显示器进行显示图像内容的模块,可以用于播放多媒体图像内容和UI界面等信息。通信模块,用于与外部设备之间进行控制和数据通信的模块。浏览器模块,用于执行浏览服务器之间数据通信的模块。服务模块,用于提供各种服务以及各类应用程序在内的模块。同时,存储器260还用存储接收外部数据和用户数据、各种用户界面中各个项目的图像以及焦点对象的视觉效果图等。
图3示出了根据示例性实施例中控制设备100的配置框图。如图3所示,控制设备100包括控制器110、通信接口130、用户输入/输出接口、存储器、供电电源。
控制设备100被配置为控制显示设备200,以及可接收用户的输入操作指令,且将操作指令转换为显示设备200可识别和响应的指令,起用用户与显示设备200之间交互中介作用。如:用户通过操作控制设备100上频道加减键,显示设备200响应频道加减的操作。
在一些实施例中,控制设备100可是一种智能设备。如:控制设备100可根据用户需求安装控制显示设备200的各种应用。
在一些实施例中,如图1所示,移动终端300或其他智能电子设备,可在安装操控显示设备200的应用之后,可以起到控制设备100类似功能。如:用户可以通过安装应用,在移动终端300或其他智能电子设备上可提供的图形用户界面的各种功能键或虚拟按钮,以实现控制设备100实体按键的功能。
控制器110包括处理器112和RAM 113和ROM 114、通信接口130以及通信总线。
控制器用于控制控制设备100的运行和操作,以及内部各部件之间通信协作以及外部和内部的数据处理功能。
通信接口130在控制器110的控制下,实现与显示设备200之间控制信号和数据信号的通信。如:将接收到的用户输入信号发送至显示设备200上。通信接口130可包括WiFi芯片131、蓝牙模块132、NFC模块133等其他近场通信模块中至少之一种。
用户输入/输出接口140,其中,输入接口包括麦克风141、触摸板142、传感器143、按键144等其他输入接口中至少一者。如:用户可以通过语音、触摸、手势、按压等动作实现用户指令输入功能,输入接口通过将接收的模拟信号转换为数字信号,以及数字信号转换为相应指令信号,发送至显示设备200。
输出接口包括将接收的用户指令发送至显示设备200的接口。
在一些实施例中,控制设备100包括通信接口130和输入输出接口140中至少一者。控制设备100中配置通信接口130,如:WiFi、蓝牙、NFC等模块,可将用户输入指令通过WiFi协议、或蓝牙协议、或NFC协议编码,发送至显示设备200.
存储器190,用于在控制器的控制下存储驱动和控制控制设备200的各种运行程序、数据和应用。存储器190,可以存储用户输入的各类控制信号指令。
供电电源180,用于在控制器的控制下为控制设备100各元件提供运行电力支持。可以电池及相关控制电路。
参见图4,在一些实施例中,将系统分为四层,从上至下分别为应用程序(Applications)层(简称“应用层”),应用程序框架(Application Framework)层(简称“框架层”),安卓运行时(Android runtime)和系统库层(简称“系统运行库层”),以及内核层。
如图4所示,本公开实施例中应用程序框架层包括管理器(Managers),内容提供者(Content Provider)等,其中管理器包括以下模块中的至少一个:活动管理器(Activity Manager)用与和系统中正在运行的所有活动进行交互;位置管理器(Location Manager)用于给系统服务或应用提供了系统位置服务的访问;文件包管理器(Package Manager)用于检索当前安装在设备上的应用程序包相关的各种信息;通知管理器(Notification Manager)用于控制通知消息的显示和清除;窗口管理器(Window Manager)用于管理用户界面上的括图标、窗口、工具栏、壁纸和桌面部件。
在一些实施例中,图4中的软件架构对应的软件程序和/或模块存储在图2或图3 所示的第一存储器或第二存储器中
在一些实施例中,对于具备触控功能的显示设备,以分屏操作为例,显示设备接收用户作用于显示屏上的输入操作(如分屏操作),内核层可以根据输入操作产生相应的输入事件,并向应用程序框架层上报该事件。由应用程序框架层的活动管理器设置与该输入操作对应的窗口模式(如多窗口模式)以及窗口位置和大小等。应用程序框架层的窗口管理根据活动管理器的设置绘制窗口,然后将绘制的窗口数据发送给内核层的显示驱动,由显示驱动在显示屏的不同显示区域显示与之对应的应用界面。
在一些实施例中,如图5中所示,应用程序层包含至少一个应用程序可以在显示器中显示对应的图标控件,如:直播电视应用程序图标控件、视频点播应用程序图标控件、媒体中心应用程序图标控件、应用程序中心图标控件、游戏应用图标控件等。
在一些实施例中,直播电视应用程序,可以通过不同的信号源提供直播电视。例如,直播电视应用程可以使用来自有线电视、无线广播、卫星服务或其他类型的直播电视服务的输入提供电视信号。以及,直播电视应用程序可在显示设备200上显示直播电视信号的视频。
在一些实施例中,视频点播应用程序,可以提供来自不同存储源的视频。不同于直播电视应用程序,视频点播提供来自某些存储源的视频显示。例如,视频点播可以来自云存储的服务器端、来自包含已存视频节目的本地硬盘储存器。
在一些实施例中,媒体中心应用程序,可以提供各种多媒体内容播放的应用程序。例如,媒体中心,可以为不同于直播电视或视频点播,用户可通过媒体中心应用程序访问各种图像或音频所提供服务。
在一些实施例中,应用程序中心,可以提供储存各种应用程序。应用程序可以是一种游戏、应用程序,或某些和计算机系统或其他设备相关但可以在智能电视中运行的其他应用程序。应用程序中心可从不同来源获得这些应用程序,将它们储存在本地储存器中,然后在显示设备200上可运行。
在一些实施例中,显示设备在实现智能电视功能时,用户可对设备参数进行个性化设置,以便于显示设备呈现的画面能够满足用户的需求,比如设置声音参数、亮度参数和画质参数等。但是,随着现有的智能电视产品的不断升级,传统电视的基本设置功能已经无法满足用户的需求。
现有智能电视针对不同节目场景、不同用户需求,提供更加专业、“复杂”的设备参数设置功能,例如参数设置选项增加、参数设置内容细化。针对复杂的参数设置选项和内容用户不容易记忆,在破坏调整参数前的参数效果后,用户无法恢复到之前的状态,或者仅能通过恢复出厂设置的方式将所有参数均恢复到出厂状态,但也无法恢复到破坏调整参数前的参数效果,用户体验不好。
因此,为便于记忆用户在调整参数前的各参数设置选项对应的参数,并在用户调整参数之后,能够恢复到调整前的参数效果,本发明提出一种显示设备的设备参数的记忆方法与恢复方法,由显示设备自行记忆每次调整后的设备参数,使得用户能够智能化记忆、恢复页面设置前的参数状态,增强用户的体验。
在执行设备参数记忆方法时,在用户操作显示设备并进入设备参数设置界面后,启动参数记忆过程,以将当前设备参数设备界面中呈现的各个参数设置选项对应的参 数进行存储。为便于用户执行一键恢复操作,在设备参数设置界面中显示参数恢复按钮。在用户调整某个参数设置选项对应的参数后,用户可触发参数恢复按钮,调用存储的参数信息,即可将用户调整后的参数设置选项对应的参数恢复到调整前的参数。
可见,本发明使用智能化的参数记忆与恢复的方法,为用户提供更加方便、快捷、智能化的设置服务。通过这种设置方法,用户能够在进入设备参数设置界面时记忆参数状态,同时用户可一键将调整的参数恢复到调整前的“初始”状态,为用户提供更加智能化的功能体验,增加产品竞争力。此处的“初始”状态是指用户在调整参数之前的状态,而非指出厂状态。
图6中示例性示出了根据一些实施例的参数记忆恢复方法的数据流图;图7中示例性示出了根据一些实施例的显示设备的设备参数的记忆方法的流程图。为便于显示设备对用户调整参数的参数状态进行记忆,本发明实施例提供一种显示设备,包括:显示器,被配置为呈现展示有系统设置按钮的系统主页和设备参数设置界面;控制器与显示器连接,,参见图6和图7,在执行显示设备的设备参数的记忆方法时,控制器被配置为执行下述步骤:
S11、响应于用户触发系统设置按钮产生的参数设置指令,生成设备参数设置界面,设备参数设置界面中呈现有数个用于实现对不同功能进行参数设置的参数设置选项。
用户在启动显示设备后,显示设备的显示器中呈现系统主页,系统主页中呈现不同的应用程序和系统设置按钮,每个应用程序用于实现一种功能,如音乐、影视等;系统设置按钮用于对显示设备的运行、显示参数进行设置。
为便于用户操作显示设备,可配置遥控器,用户通过遥控器触发系统主页的系统设置按钮时,产生参数设置指令。控制器接收到参数设置指令,即可实现用户对显示设备的各项参数进行个性化设置的过程。
图8中示例性示出了根据一些实施例的设备参数设置界面的显示示意图;图9中示例性示出了根据一些实施例的设备参数设置界面的示意图。参见图8和图9,控制器响应于参数设置指令,生成设备参数设置界面,并显示在显示器中。在一些实施例中,设备参数设置界面可显示在系统主页中,并未完全覆盖系统主页,以便于用户在调整参数时,能够同步看到系统主页中显示内容的呈现效果变化。
设备参数设置界面中包括数个参数设置选项和操作指南提示框,每个参数设置选项用于实现对不同功能进行参数设置。参数设置选项包括但不限于图8所示的平衡、音量自动控制、数字音频输出、均衡器等。图9中所示的选项1、选项2……选项n分别对应图8中所示的各选项。
S12、获取每个参数设置选项对应的初始设备参数,初始设备参数是指对设备参数进行调整前对应的历史设置参数。
用户在控制显示设备的显示器中显示设备参数设置界面后,即在进入设备参数设置界面后,控制器即可执行参数记忆过程,即获取每个参数设置选项对应的初始设备参数。
每个参数设置选项均对应有一个初始设备参数,初始设备参数是指用户在上一次对设备参数进行调整后得到的参数,即历史设置参数,也就是本次调整前对应的参数。该参数为用户上次使用显示设备时所采用的参数,可表明用户对该参数所呈现的画面效果比较满意。
在一些实施例中,由于用户在操作显示设备执行不同功能时,显示器中会显示不同的用户界面,因此,为便于准确并及时启动参数记忆功能,需预先为每个用户界面设置页面属性,只有页面属性为参数存储属性时,才需执行参数记忆功能。
因此,控制器在执行获取每个参数设置选项对应的初始设备参数之前,被进一步配置为执行下述步骤:
步骤121、获取设备参数设置界面的页面属性。
步骤122、如果页面属性为参数存储属性,则执行获取每个参数设置选项对应的初始设备参数的步骤。
控制器在监测到显示设备呈现设备参数设置界面时,随即获取设备参数设置界面的页面属性。判断设备参数设置界面的页面属性是否为参数存储属性,即判断设备参数设置界面是否需要执行参数记忆过程。
参数存储属性用于表征需要执行参数记忆过程,因此,如果判断出设备参数设置界面的页面属性为参数存储属性时,即可说明当前设备参数设备界面需要进行参数记忆,此时,控制器即可获取每个参数设置选项对应的初始设备参数。
S13、将每个参数设置选项对应的初始设备参数存储至临时数据缓存中。
控制器在获取到刚进入设备参数设置界面时每个参数设置选项对应的初始设备参数后,即可将相应的初始设备参数存储到控制器中的临时存储区域,即临时数据缓存中。
可见,在进入设备参数设置界面后,以及,用户未对任何参数设置选项调整对应参数之前,控制器将每个参数设置选项对应的初始设备参数进行记忆,可以保证在后续参数调整后,能够根据用户的恢复操作,将相应参数设置选项对应的参数恢复到“初始”状态,为用户提供更加智能的功能体验。
在一些实施例中,用户在恢复设备参数至“初始”状态时,可统一对所有的参数设置选项对应的参数进行恢复,也可以仅对某一个参数设置选项(指定参数设置选项)对应的参数进行恢复。因此,为便于执行单独恢复参数过程时,控制器在将获取到的各个初始设备参数存储时,可按照选项参数对照表的方式进行存储,便于控制器能够准确获取指定参数设置选项对应的初始设备参数。
在一些实施例中,为便于控制器执行单独恢复参数的过程,控制器在执行将每个参数设置选项对应的初始设备参数存储至临时数据缓存中,被进一步配置为执行下述步骤:
步骤1311、基于每个参数设备选项和每个对应的初始设备参数,生成选项参数对照列表。
步骤1312、将选项参数对照列表存储至临时数据缓存中。
控制器在获取每个参数设备选项的初始设备参数之后,即可建立每个参数设置选项与对应的每个初始设备参数的一一对应关系。基于一一对应关系,建立选项参数对照表。选项参数对照表中包括一一对应的参数设置选项和初始设备参数。
图10(a)中示例性示出了根据一些实施例的选项参数对照列表的一种示意图。参见图10(a)所示的选项参数对照表,参数设置选项1对应初始设备参数1,参数设置选项2对应初始设备参数2,参数设置选项3对应初始设备参数3,参数设置选项n对应初始设备参数n,依此类推。
在一些实施例中,用户除了将设备参数恢复至“初始”状态之外,还可将设备参数恢复到出厂参数,即执行恢复出厂设置。此时,控制器在执行将每个参数设置选项对应的初始设备参数存储至临时数据缓存中,被进一步配置为:
步骤1321、获取每个参数设备选项的出厂设备参数。
步骤1322、基于每个参数设备选项和对应的初始设备参数和出厂设备参数,生成选项参数对照列表。
步骤1323、将选项参数对照列表存储至临时数据缓存中。
在需要将设备参数恢复到出厂状态时,需要获取到每个参数设置选项的出厂设备参数。出厂设备参数预先存储的控制器的存储区,在需要时即时调取即可。
若用户需要对指定参数设置选项执行恢复参数操作,即进行单独恢复参数时,控制器需建立每个参数设置选项与对应的每个初始设备参数和出厂设备参数的一一对应关系。基于一一对应关系,建立选项参数对照表。选项参数对照表中包括一一对应的参数设置选项、初始设备参数和出厂设备参数。
图10(b)中示例性示出了根据一些实施例的选项参数对照列表的另一种示意图。参见图10(b)所示的选项参数对照表,参数设置选项1对应初始设备参数1、出厂设备参数1;参数设置选项2对应初始设备参数2、出厂设备参数2;参数设置选项3对应初始设备参数3、出厂设备参数3;参数设置选项n对应初始设备参数n、出厂设备参数n,依此类推。
可见,本发明实施例提供的显示设备,在执行显示设备的设备参数的记忆方法时,控制器响应于参数设置指令并在显示器中呈现设备参数设置界面时,获取每个参数设置选项对应的初始设备参数并存储至临时数据缓存中。可见,该显示设备提供参数记忆功能,在进入设备参数设置界面时对该界面中的各个参数设置选项对应的初始设备参数进行记忆,可以保证在后续参数调整后,能够根据用户的恢复操作,将相应参数设置选项对应的参数一键恢复到“初始”状态,为用户提供更加智能的功能体验。
图11中示例性示出了根据一些实施例的显示设备的设备参数的恢复方法的流程图。为便于显示设备执行用户的恢复操作将其经过参数调整后的参数设置选项对应的参数恢复至初始设备参数,本发明实施例提供一种显示设备包括:显示器,被配置为呈现展示有系统设置按钮的系统主页和设备参数设置界面;控制器与显示器连接,参见图11,在执行显示设备的设备参数的恢复方法时,控制器被配置为执行下述步骤:
S21、响应于用户触发系统设置按钮产生的参数设置指令,生成设备参数设置界面,设备参数设置界面中呈现有参数恢复按钮和数个用于实现对不同功能进行参数设置的参数设置选项。
在显示器中呈现设备参数设置界面的相关实现过程,可参照前述实施例中步骤S11的内容,此处不再赘述。
为便于用户能够快速执行参数恢复操作,在设备参数设置界面中显示有参数恢复按钮。用户触发该参数恢复按钮,即可执行相应的参数恢复操作,方便快捷。
在一些实施例中,参数恢复按钮显示在设备参数设置界面的底部,即位于操作指南提示框中。为使用户能够获知如何操作该参数恢复按钮,可在参数恢复按钮的一侧显示操作提示。
再次参见图9,为实现不同的参数恢复操作,参数恢复按钮包括初始参数恢复按 钮和出厂参数恢复按钮,初始参数恢复按钮用于实现将各参数设置选项对应的调整后的参数恢复到初始设备参数,此时,可显示的操作提示内容可为“恢复到调整前的参数”;出厂参数恢复按钮用于实现将各参数设置选项对应的调整后的参数恢复到出厂状态,此时,可显示的操作提示内容可为“恢复到出厂时的参数”。
S22、响应于用户触发参数恢复按钮产生的参数恢复指令,获取每个参数设置选项对应的初始化参数。
用户在对设备参数设置界面中呈现的各个参数设置选项对应的参数进行调整后,如果参数调整后所呈现的画面效果不是用户理想的状态,也就是参数设置存在问题时,用户便可触发参数恢复按钮,此时,产生参数恢复指令。
控制器接收到参数恢复指令后,便可执行参数恢复操作,即获取每个参数设置选项对应的初始化参数,以对调整后的参数设置选项的参数进行恢复。初始化参数包括初始设备参数和出厂设备参数,初始设备参数用于实现恢复到“初始”状态,出厂设备参数用于实现恢复到出厂状态。
由于参数恢复按钮包括两种实现形式,因此,在执行参数恢复操作时,也会存在两种恢复方式,一种是将调整后的参数恢复到调整前的“初始”状态,另一种是将调整后的参数恢复到出厂状态。
在一些实施例中,显示设备在执行将调整后的参数恢复到调整前的“初始”状态,即参数恢复按钮采用初始参数恢复按钮的情况下时,初始化参数为初始设备参数,控制器在执行响应于用户触发参数恢复按钮产生的参数恢复指令,获取每个参数设置选项对应的初始化参数,被进一步配置为:响应于用户触发初始参数恢复按钮产生的初始参数恢复指令,在临时数据缓存中获取每个参数设置选项对应的初始设备参数。
若用户想要将各参数设置选项对应的参数恢复到“初始”状态,即调整前的状态,用户触发初始参数恢复按钮,随即产生初始参数恢复指令,控制器执行初始参数恢复指令,需要获取初始设备参数。
初始设备参数存储在临时数据缓存中,因此,控制器在临时数据缓存中获取每个参数设置选项对应的初始设备参数,便于后续将调整后的参数恢复到“初始”状态。
在一些实施例中,显示设备在执行将调整后的参数恢复到出厂状态,即参数恢复按钮采用出厂参数恢复按钮的情况下时,初始化参数为出厂设备参数,控制器在执行响应于用户触发参数恢复按钮产生的参数恢复指令,获取每个参数设置选项对应的初始化参数,被进一步配置为:响应于用户触发出厂参数恢复按钮产生的出厂参数恢复指令,在系统缓存中获取每个参数设置选项对应的出厂设备参数。
若用户想要将各参数设置选项对应的参数恢复到出厂状态,即进行恢复默认出厂设置状态,用户触发出厂参数恢复按钮,随即产生出厂参数恢复指令,控制器执行出厂参数恢复指令,需要获取出厂设备参数。
出厂设备参数存储在控制器的存储区,控制器可直接调取每个参数设置选项对应的出厂设备参数,便于后续将调整后的参数恢复到出厂状态。
S23、基于每个参数设置选项对应的初始化参数,将参数设备选项对应的当前设备参数恢复至初始化参数,当前设备参数是指用户基于每个参数设置选项进行参数调整后得到的参数。
控制器在获取到每个参数设置选项对应的初始化参数后,即可将调整后的当前设 备参数恢复至初始化参数,实现参数恢复操作。
基于前述实施例提供的两种参数恢复过程,初始化参数包括初始设备参数和出厂设备参数。在控制器根据指令获取到初始设备参数时,即可将经过参数调整的参数设置选项对应的当前设备参数恢复至“初始”状态,即调整前的参数,以实现调整前的画面效果。
在控制器根据指令获取到出厂设备参数时,即可将经过参数调整的参数设置选项对应的当前设备参数恢复至出厂状态。
前述实施例提供的参数恢复功能,参数恢复按钮显示在设备参数设置界面中,即在触发参数恢复按钮时,可对设备参数设置界面中呈现的所有参数设置选项对应的参数执行相应的参数恢复操作。也就是说,前述实施例可执行设备参数的“统一记忆,统一恢复”的恢复效果。
而在其他实施例中,还可对指定参数设置选项中的参数进行单独恢复。此时,用户点击指定参数设置选项,即在显示器中呈现选项设置界面。该选项设置界面中包括不同需要调整的参数。
图12中示例性示出了根据一些实施例的均衡器设置界面的示意图。参见图12,以用户触发的指定参数设置选项为“均衡器”为例,此时生成的选项设置界面为均衡器设置界面。在该界面中,显示有不同需要调整的细化参数,例如,120Hz对应的参数、500Hz对应的参数、1.5KHz对应的参数、5KHz对应的参数、10KHz对应的参数等。
选项设置界面只占据显示器的一部分,并未对显示器中的原始画面进行遮挡,因此,可随着指定参数设置选项的参数调整,用户可同步查看到原始画面的画面效果。如果用户对实时变化的画面效果不满意时,可单独对该指定参数设置选项的参数进行恢复。
也就是说,在用户对指定参数设置选项的参数进行恢复时,可执行设备参数的“统一记忆,单独恢复”的恢复效果。
为实现单独恢复的目的,在选项设置界面中呈现有选项参数恢复按钮,选项参数恢复按钮可实现仅对指定参数设置选项的参数进行单独恢复的恢复效果。
图13中示例性示出了根据一些实施例的获取初始化参数的方法流程图。因此,在这种单独恢复的应用场景中,参见图13,控制器在执行响应于用户触发参数恢复按钮产生的参数恢复指令,获取每个参数设置选项对应的初始化参数,被进一步配置为执行下述步骤:
S221、响应于用户触发指定参数设置选项时产生的选项参数设置指令,生成选项设置界面,选项设置界面呈现有用于对指定参数设置选项进行参数恢复的选项参数恢复按钮。
S222、响应于用户触发选项参数恢复按钮产生的选项参数恢复指令,在临时数据缓存中获取选项参数对照列表。
S223、在选项参数对照列表中查找与指定参数设置选项对应的初始化参数。
用户在设备参数设置界面中选定其中一个参数设置选项进行参数调整时,触发指定参数设置选项时即产生选项参数设置指令,并在显示器中显示选项设置界面。在一些实施例中,选项设置界面可覆盖在设备参数设置界面上,但不会对显示器中的原始 画面进行遮挡。
选项设置界面中呈现各种不同需要调整的细化参数和选项参数恢复按钮。若用户对各个细化参数调整后的画面效果不满意,可触发选项参数恢复按钮,执行单独参数恢复操作。用户在触发选项参数恢复按钮时,产生选项参数恢复指令,控制器在接收到选项参数恢复指令后,即可获取对应的初始化参数。
在一些实施例中,在选项设置界面中,也可同时执行恢复到“初始”状态和恢复到出厂状态两种恢复方式,此时,选项参数恢复按钮包括初始参数恢复按钮和出厂参数恢复按钮,作用与设备参数设置界面中呈现的初始参数恢复按钮和出厂参数恢复按钮的作用相同。
在一些实施例中,为便于在进行单独参数恢复时能够快速调取到对应的初始化参数,显示设备在记忆参数时,将各个初始化参数以选项参数对照列表的形式存储在临时数据缓存中。因此,在执行单独恢复过程时,控制器可在临时数据缓存中获取选项参数对照列表。
为实现恢复到“初始”状态和恢复到出厂状态的两种恢复方式,选项参数对照列表的呈现形式包括两种,一种是包括一一对应的参数设置选项和初始设备参数,另一种是包括一一对应的参数设置选项和初始设备参数、初始出厂参数。
在选项参数对照列表包括一一对应的参数设置选项和初始设备参数时,控制器可基于指定参数设置选项在选项参数对照列表中选取到对应的初始化参数;若要执行恢复到“初始”状态,则初始化参数为初始设备参数,并基于初始设备参数,将调整后的指定参数设置选项的当前设备参数恢复至初始设备参数,实现指定参数设置选项的参数单独恢复效果。
在选项参数对照列表包括一一对应的参数设置选项和初始设备参数、初始出厂参数时,控制器可基于指定参数设置选项在选项参数对照列表中选取到对应的初始化参数。若要执行恢复到出厂状态,则初始化参数为初始出厂参数,并基于初始出厂参数,将调整后的指定参数设置选项的当前设备参数恢复至初始出厂参数,实现指定参数设置选项的参数单独恢复效果。
可见,本发明实施例提供的显示设备,在进行参数恢复时,可基于设备参数设置界面执行所有参数设置选项的参数统一恢复,还可基于选项设置界面执行对指定参数设置选项的参数的单独恢复。通过不同形式的参数恢复方式,提供给用户更丰富的参数恢复选择,用户体验更好。
在一些实施例中,为便于用户在调整指定参数设置选项的参数时,能够获知当前设备参数与初始设备参数的偏离程度,可在调整参数时,在选项设置界面中呈现参数调整对照图。
具体地,在进行参数恢复时,控制器被进一步配置为执行下述步骤:
步骤241、获取初始设备参数和用户基于选项设置界面调整指定参数设置选项的参数后产生的当前设备参数。
步骤242、基于当前设备参数和初始设备参数,生成参数调整对照图,显示在选项设置界面中。
为起到对照作用,控制器获取初始设备参数和用户调整后的当前设备参数,并基于两个参数的偏离程度,生成参数调整对照图,在选项设置界面中进行显示,以提示 用户。参数调整对照图还可同时将指定参数设置选项的初始设备参数呈现在用户面前,用户可基于初始设备参数调整当前设备参数,以便于用户可以手动将当前设备参数恢复至初始设备参数。
图14(a)中示例性示出了根据一些实施例的参数调整对照图的一种示意图。在指定参数设置选项为亮度设置选项时,图14(a)中示例性示出在对亮度参数进行调整时生成的参数调整对照图。参数调整对照图中细实线为初始设备参数,即调整前的亮度参数;带有圆圈的细实线为当前设备参数,即用户实时调整的设备参数。用户每调整一次亮度参数,参数调整对照图中的带有圆圈的细实线产生相应的变化,如向上移动、向下移动。
图14(b)中示例性示出了根据一些实施例的参数调整对照图的另一种示意图。在指定参数设置选项为均衡器设置选项时,图14(b)中示例性示出在对均衡器参数进行调整时生成的参数调整对照图。参数调整对照图中虚方框为初始设备参数,即调整前的均衡器参数;实方框为当前设备参数,即用户实时调整的设备参数。用户每调整一次均衡器参数,参数调整对照图中的实方框产生相应的变化,如向上移动、向下移动。
可见,本发明实施例提供的显示设备,在执行显示设备的设备参数的恢复方法时,控制器响应于用户触发设备参数设置界面中呈现的参数恢复按钮产生的参数恢复指令,获取每个参数设置选项对应的初始化参数;基于每个参数设置选项对应的初始化参数,将经过参数调整后的参数设备选项对应的当前设备参数恢复至初始化参数。可见,该显示设备可基于进入设备参数设置界面时存储的初始设备信息,在后续根据用户的恢复操作,将相应参数设置选项对应的参数一键恢复到“初始”状态,为用户提供更加智能的功能体验。
图7中示例性示出了根据一些实施例的显示设备的设备参数的记忆方法的流程图。本发明实施例提供的一种显示设备的设备参数的记忆方法,由前述实施例提供的显示设备中配置的控制器执行,该方法包括:
S11、响应于用户触发系统设置按钮产生的参数设置指令,生成设备参数设置界面,所述设备参数设置界面中呈现有数个用于实现对不同功能进行参数设置的参数设置选项;
S12、获取每个所述参数设置选项对应的初始设备参数,所述初始设备参数是指对设备参数进行调整前对应的历史设置参数;
S13、将每个所述参数设置选项对应的初始设备参数存储至临时数据缓存中。
图11中示例性示出了根据一些实施例的显示设备的设备参数的恢复方法的流程图。参见图11,本发明实施例提供的一种显示设备的设备参数的恢复方法,由前述实施例提供的显示设备中配置的控制器执行,该方法包括:
S21、响应于用户触发系统设置按钮产生的参数设置指令,生成设备参数设置界面,所述设备参数设置界面中呈现有参数恢复按钮和数个用于实现对不同功能进行参数设置的参数设置选项;
S22、响应于用户触发所述参数恢复按钮产生的参数恢复指令,获取每个所述参数设置选项对应的初始化参数;
S23、基于每个所述参数设置选项对应的初始化参数,将所述参数设备选项对应的 当前设备参数恢复至初始化参数,所述当前设备参数是指用户基于每个所述参数设置选项进行参数调整后得到的参数。
由以上技术方案可知,本发明实施例提供的一种显示设备及其设备参数的记忆方法、恢复方法,在进行参数记忆时,控制器响应于参数设置指令并在显示器中呈现设备参数设置界面时,获取每个参数设置选项对应的初始设备参数并存储至临时数据缓存中。在进行参数恢复时,控制器响应于用户触发设备参数设置界面中呈现的参数恢复按钮产生的参数恢复指令,获取每个参数设置选项对应的初始化参数;基于每个参数设置选项对应的初始化参数,将经过参数调整后的参数设备选项对应的当前设备参数恢复至初始化参数。可见,本发明实施例提供的显示设备及方法,可提供参数记忆功能,在进入设备参数设置界面时对该界面中的各个参数设置选项对应的初始设备参数进行记忆,可以保证在后续参数调整后,能够根据用户的恢复操作,将相应参数设置选项对应的参数一键恢复到“初始”状态,为用户提供更加智能的功能体验。
随着智能显示设备的不断升级,传统的设置功能已经无法满足用户的基本需求。目前大多数的显示设备200针对不同的使用场景、不同的用户需求,提供了更加专业、详尽的Picture(图像)、Sound(声音)等方面的参数设置功能。
在显示设备200参数的设置过程中,需要用户按下控制装置上的“确认”按键进而选择具体的参数选项,同时显示设备200上实时显示根据参数调整的屏幕显示效果,用户也可以同步观察屏幕,从而实现参数的最佳选择。
然而,显示设备200上提供设置选项的菜单界面本身占据了屏幕1/3左右的显示区域,其余的可供用户观察显示效果的区域较小,进而会影响用户的视觉判断。可见,目前显示设备200上菜单页面的显示方式将影响用户的操作体验与视觉判断,最终影响用户的参数设置效果。
例如,如图15中所示的Picture Mode(图像模式)调整页面,在该页面在显示设备主页上叠加显示,并且列出了全部的模式选项,例如Dynamic(动态)模式、Standard(标准)模式、Natural(自然)模式、Game(游戏)模式、Sports(运动)模式、Cinema(电影)模式、Calibrated(已校准)模式、FILMMAKER MODE(滤镜模式)等。并且该页面所占用的显示区域大约是全屏区域的1/3左右。这种较大的页面展示方式势必会使得用户可观察显示效果的其余区域的面积减小。
基于上述内容,为了避免一些设置页面或者菜单页面占用过多的显示区域,本申请实施例中提供了一种显示设备200,可以仅仅以窗口的形式显示一些用于图像显示效果调整的设置项,并且该窗口所占用的显示区域较小,并不会影响用户对于图像显示效果的观察。
用户在需要调整图像显示效果的时候,可以先控制显示设备200显示出设置页面,然后在设置页面上再逐级寻找到包括一些可调整显示效果的图像设置项的图像设置页面。通常,用户可以通过遥控器等控制装置100对显示设备200进行控制,或者通过语音的方式对显示设备200进行控制。
显示设备200的主页面如图16所示,主页面中除了显示一些媒体资源A、B、C、E、F等之外,通常还在主页面的顶部任务栏处设有一些便捷入口,例如“History(观看历史)”、“Network(网络)”、“Settings(设置)”等。用户可以通过选择这些便捷入口的控件,进而直接进入相关的页面。当用户需要调整设置项时,可以选择如图16所示页面上的“设 置”控件,进而向显示设备200输入页面显示指令,控制显示设备200显示设置页面。
本申请实施例中的设置页面可以如图17所示。在图17中,设置(Settings)页面上包括若干设置项,例如“Picture(图像)”、“Sound(声音)”、“Parental Control(父母控制)”、“Network&Internet(网络与互联网)”、“Accounts&Sign-ln(账户和登录)”、“Apps(应用)”、“Device Preferences(设备首选项)”、“Remotes&Accessories(遥控器及配件)”等。
用户可以继续在该设置页面上选择“Picture”设置项,以向显示设备200输入第六选择指令,显示设备200则可以继续显示如图18所示的图像设置页面。
在上述用户与显示设备200的交互过程中,显示设备200的控制器250可以被配置为:响应于用户输入的页面显示指令,控制显示器260显示设置页面。而后,在用户输入第六选择指令后,控制器250再响应于该第六选择指令,控制显示器260显示图像设置页面。
图18所示的图像设置页面上,包括若干设置项,例如“Backlight(背光灯)”、“Picture Mode(图像模式)”、“Contrast(对比度)”、“Brightnes(亮度)”、“Colour(色彩)”、“Tint(色调)”、“Smart Scene(智能场景)”等。通常,一些设置项中可以直接调整具体的参数或者模式,进而调整显示设备200当前页面的显示效果。
在本申请实施例中,显示设备200可以为上述的每个设置项以及设置项下包括的各个调整项配置一个调整页面。其中,每个设置项对应一个调整页面,调整页面中包括该设置项下的若干个调整项,但并不会显示全部的调整项,以避免占用过多的显示区域。
用户在调整页面可以选择目标调整项进行调整,并且在调整的同时,显示设备200也会根据调整后的模式或者参数等调整当前显示内容的显示效果。用户也可以在观察显示效果的同时再次对调整项进行调整,以使显示效果满足要求。
在上述用户与显示设备200的交互过程中,如图19所示,显示设备200的控制器250可以被配置为:在用户在图像设置页面上输入用于选择目标设置项的第一选择指令后,响应于该第一选择指令,将目标设置项对应的调整页面以窗口的形式显示。而后用户继续在调整页面上选择目标调整项,进而向显示设备200输入第二选择指令,控制器250继续响应于该第二选择指令,利用目标调整项对应的参数调整当前显示页面的图像显示效果。
用户可以根据自己的需求在图18所示的图像设置页面上,选择具体的设置项进行调整。但是目前对设置项进行调整时,图像设置页面仍显示在显示页面上,并且遮挡了大部分显示页面,例如图15所示,会影响用户观察显示页面的图像效果变化。因此,本申请实施例中,显示设备200可以将各个设置项对应的调整页面以窗口的形式单独进行显示,显示时并不显示原有的图像设置页面以及设置页面等,这样可是保证调整页面不会遮挡大部分的显示页面。
例如,用户在选择图像模式设置项后,显示设备200会显示以窗口的形式显示部分图像模式,例如图20中所示的“Game”、“Sports”等,而其他的图像模式则会暂时隐藏起来,根据用户移动焦点的操作,再依次将其他未被显示的图像模式一一显示出来。
如图20所示,这种只显示部分调整项的调整页面仅仅只占用一小部分的显示区域,并且,在显示调整页面的时,调整页面的上一级设置页面是不会被显示的,进而当前的显示页面上有大部分的显示区域可以变化显示效果,用户可以观察的显示效果也比较明显,可以获得更好的视觉判断。
并且,为了尽量避免调整页面遮挡当前显示页面的主要显示内容,通常需要将调整页 面放置于显示页面的边缘处。
在一些实施例中,显示设备200上可以用来调整图像效果的设置项有很多,例如背光灯设置、图像模式设置、对比度设置、亮度设置、色彩设置、白平衡设置等。通常,针对不同的设置项均会配置对应的调整页面。并且,一个设置项可能只对应一个调整项,例如,亮度设置、对比度设置等;或者一个设置项也可能对应多个调整项,例如,图像模式设置下包括运动模式、鲜艳模式、电影模式等,白平衡设置下包括Red(红色)设置、Green(绿色)设置、Blue(蓝色)设置等。
针对图像模式设置的过程中,用户仅仅需要选择目标图像模式即可,而针对一些色调或者色彩等设置的过程中,用户则需要选择具体的参数值。
在一些实施例中,如果用户选择的目标设置项中需要对具体的参数进行调整,例如色调、色彩等,那么显示设备200需要显示的调整页面即为参数调整页面,而参数调整页面中则包括色调、色彩等参数设置的调整项。例如图21中所示的White balance(白平衡)调整页面,其中可以包括Red参数调整项、Green参数调整项、Blue参数调整项,且均以参数选择条的形式展示,以及,参数选择条上包括可以定位到具体参数值的定位控件,用户可以通过移动定位控件选择具体的参数值。而后,显示设备200再利用具体的参数值调整当前显示页面的显示效果。
在上述用户选择具体参数值的过程中,如图22所示,显示设备200的控制器250还可以被配置为:响应于用户选择目标设置项的第一选择指令,将目标设置项对应的参数调整页面以窗口的形式显示。而后,再响应于用户选择目标参数调整项的第三选择指令,将焦点定位到目标参数调整项的位置,以便用户可以在参数选择条上选择目标参数。最后,控制器250响应于用户选择目标参数的第四选择指令,利用目标参数调整当前显示页面的图像显示效果。
例如,用户在白平衡调整页面上选择了目标参数调整项为“Red”,而后再移动定位控件,选择参数值为25,那么显示设备200会控制当前显示的页面以参数Red=25进行显示,进而改变当前页面的图像显示效果。
如果用户对当前的显示效果不满意,可以继续移动定位控件选择其他的参数值,并继续观察当前的显示效果,直至满意为止。
在一些实施例中,用户需要借助于遥控器等控制装置100实现定位控件的移动,具体的方式是通过按下遥控器上的向前或者向后的方向键控制定位控件的右移或者左移。在此过程中,用户按下按键的操作可以看作是向显示设备200输入了第一移动指令。此时,显示设备200的控制器250可以被配置为:响应于该第一移动指令,将定位控件定位到参数选择条的目标位置上。而后,再利用目标位置对应的目标参数值调整当前显示页面的图像显示效果。
或者,用户还可以通过语音的方式控制定位控件的移动,例如,用户向显示设备200输入语音内容“将Red数值调整为25”等,此时,显示设备200即可将Red参数调整项上的定位控件定位到参数值25的位置。在此过程中,显示设备200的控制器250还可以响应于用户输入的作为语音控制指令的第一移动指令,将定位控件定位到目标位置。
在一些实施例中,可能用户想选择的参数调整项没有出现在调整页面上当前显示的内容中。此时,用户可以通过控制遥控器等控制装置100实现调整页面的翻页操作,例如,通过按下遥控器上的向上或者向下的方向键控制焦点在调整页面上移动。如果当前焦点定 位在如图21所示的Red参数调整项上,那么用户再次按下向上的方向键,即可控制调整页面向上翻页,将Red参数调整项的上一个参数调整项“level(色阶)”显示出来,如图23所示。
在此过程中,如图24所示,显示设备200的控制器250还可以被配置为:响应于用户在参数调整页面上输入的用于移动焦点的第二移动指令,调整参数调整页面上的显示内容,以使未被显示的参数调整项显示在参数调整页面上。
或者,用户还可以直接向显示设备200输入语音指令,例如,用户向显示设备200输入语音内容“调整level”,此时,显示设备200即可控制调整页面显示出level参数调整项,并将焦点定位到该调整项上。在此过程中,显示设备200的控制器250还可以响应于用户输入的作为语音控制指令的第二移动指令,调整参数调整页面上的显示内容,以使未被显示的参数调整项显示出来。
在一些实施例中,如果用户选择的目标设置项中仅包括一些模式选项而非需要调整具体的参数值,那么显示设备200需要显示的调整页面即为模式调整页面,如图20所示,而模式调整页面中会包括至少一个图像模式,例如动态模式、鲜艳模式、标准模式等。此时,每个图像模式即为模式调整页面中的调整项。用户可以在模式调整页面上选择某个图像模式作为目标图像模式,进而显示设备200将获取到目标图像模式对应的各项图像显示参数,而后,再利用这些显示参数调整当前显示页面的显示效果。
在用户选择目标图像模式的过程中,如图25所示,显示设备200的控制器250可以被配置为:响应于用户输入的选择目标设置项的第一选择指令,将目标设置项对应的模式调整页面以窗口的形式显示。而后,响应于用户输入的选择目标图像模式的第五选择指令,将焦点定位到目标图像模式的位置。最后,再利用目标图像模式对应的目标图像参数调整当前显示页面的显示效果。
例如,用户在如图20所示的模式调整页面上选择了标准模式,那么显示设备200会获取到标准模式对应的目标图像参数。
在一些实施例中,用户在模式调整页面上选择目标图像模式的方式,可以是通过按下遥控器等控制装置100的方向键等,将焦点定位到目标图像模式的位置。也可以是通过向显示设备200输入语音内容,例如“选择标准模式”等,控制显示设备200上的焦点定位到目标图像模式的位置。
在一些实施例中,可能用户想选择的图像模式没有出现在调整页面上当前显示的内容中。此时,用户可以通过控制遥控器等控制装置100实现调整页面的翻页操作,例如,通过按下遥控器上的向上或者向下的方向键控制焦点在调整页面上移动。如果当前焦点定位在如图20所示的标准模式上,那么用户再次按下向上的方向键,即可控制调整页面向上翻页,将标准模式之前的Natural模式显示出来,如图26所示。
在此过程中,如图27所示,显示设备200的控制器250还可以被配置为:响应于用户在模式调整页面上输入的用于移动焦点的第三移动指令,调整模式调整页面上的显示内容,以使未被显示的图像模式显示在模式调整页面上。
或者,用户还可以直接向显示设备200输入语音指令,例如,用户向显示设备200输入语音内容“选择Game模式”,此时,显示设备200即可控制调整页面显示出Game模式,并将焦点定位到该调整项上。在此过程中,显示设备200的控制器250还可以响应于用户输入的作为语音控制指令的第三移动指令,调整模式调整页面上的显示内容,以使未被显示的 图像模式在模式调整页面上显示出来。
在一些实施例中,为了准确地将不同类型的调整页面显示出来,显示设备200在接收到用户输入的第一选择指令后,还需检测用户选择的目标设置项的类型,而后再根据目标设置项的类型确定如何显示各个调整页面,例如是否需要显示具有参数选择条的调整项等。
其中,目标设置项的类型可以包括独立设置项和复合设置项。独立设置项是指没有对应的调整页面的设置项,仅在当前设置项上就可进行其进行控制,例如图18中所示的“Smart Scene”设置项,这种设置项无需调整参数或者具有下一级页面,用户对其进行操作只是打开或者关闭。针对这种不具有下一级调整页面或者无参数调节的独立设置项,显示设备200可直接根据用户的操作控制该目标设置项的开启或者关闭。
而复合设置项则是其下对应多种设置选项的设置项,例如前述的图像模式设置项,其下一级的调整页面具有多个可选择的图像模式;或者例如前述的白平衡设置项,其下一级的调整页面则具有多个参数调整项。针对这种复合设置项,显示设备200则可以将其对应的调整页面以窗口的形式显示,并且在窗口中仅显示部分的调整项,以避免占用过多的显示区域。
进而,在一些实施例中,如图28所示,在用户输入第一选择指令后,显示设备200的控制器250还可以被配置为:响应于第一选择指令,检测目标设置项是否具有下一级调整页面。并且,在目标设置项具有下一级调整页面的情况下,将目标设置项对应的调整页面以窗口的形式显示。以及,在目标设置项不具有下一级调整页面的情况下,响应于用户在目标设置项上输入的调整指令,控制目标设置项的开启或者关闭。
在一些实施例中,如果目标设置项本身就具有参数选择条,例如图18中所示的“Contrast”设置项、“Brightness”设置项、“Colour”设置项等,显示设备200则可以直接将这些设置项对应的参数选择条显示在调整页面,并且该调整页面中有且仅有一个调整项。
进而,在一些实施例中,如图29所示,在用户输入第一选择指令后,显示设备200的控制器250还可以被配置为:响应于第一选择指令,检测目标设置项本身是否具有参数选择条。并且,在目标设置项本身具有参数选择条的情况下,仅将参数选择条显示在以窗口形式显示的调整页面中。
由上述内容可知,本申请实施例中的显示设备200,可以将目标设置项对应的调整页面以窗口的形式显示出来,避免大面积显示调整页面对显示页面上的其他内容进行遮挡,进而影响用户对于其他内容的观察。
同时,用户可以在调整页面上对一些调整项进行调整进而改变图像的显示参数,显示设备200也会利用改变后的显示参数调整当前的显示效果,用户可以一边观察显示效果一边调整参数,直至显示效果满意为止。
值得说明的是,显示设备200上可以用于调整图像显示效果的页面不仅仅局限于图像设置页面。本申请上述实施例中所提到的图像设置页面仅仅是泛指一些可以设置图像模式、参数等的功能页面,对于可以调整图像模式、对比度、亮度、色彩等显示效果的其他功能页面,同样适用于本申请上述实施例的方案中。
可见,本申请实施例中显示设备200上的这种调整页面的显示方式并不会占用过多的显示空间,既可以保证用户对显示效果的调整也可以保证用户直接观察到显示效果。
另外,为了解决当前显示设备上用于调整图像显示效果的设置页面占用显示区域过大的问题,本申请实施例中还提供了一种页面显示方法,可以应用于前述实施例中的显示设 备200中,并由显示设备200中的控制器250实现。该方法可以具体包括如下步骤:响应于用户在图像设置页面上输入的用于选择目标设置项的第一选择指令,将目标设置项对应的调整页面以窗口的形式显示;响应于用户在调整页面上输入的用于选择目标调整项的第二选择指令,利用目标调整项对应的参数调整当前显示页面的图像显示效果。
具体实现中,本发明还提供一种计算机存储介质,其中,该计算机存储介质可存储有程序,该程序执行时可包括本发明提供的显示设备的设备参数的记忆方法、恢复方法的各实施例中的部分或全部步骤。所述的存储介质可为磁碟、光盘、只读存储记忆体(英文:read-only memory,简称:ROM)或随机存储记忆体(英文:random access memory,简称:RAM)等。
本领域的技术人员可以清楚地了解到本发明实施例中的技术可借助软件加必需的通用硬件平台的方式来实现。基于这样的理解,本发明实施例中的技术方案本质上或者说对现有技术做出贡献的部分可以以软件产品的形式体现出来,该计算机软件产品可以存储在存储介质中,如ROM/RAM、磁碟、光盘等,包括若干指令用以使得一台计算机设备(可以是个人计算机,服务器,或者网络设备等)执行本发明各个实施例或者实施例的某些部分所述的方法。
本说明书中各个实施例之间相同相似的部分互相参见即可。尤其,对于显示设备的设备参数的记忆方法、恢复方法实施例而言,由于其基本相似于显示设备实施例,所以描述的比较简单,相关之处参见显示设备实施例中的说明即可。

Claims (11)

  1. 一种显示设备,包括:
    显示器,被配置为呈现展示有系统设置按钮的系统主页和设备参数设置界面;
    与所述显示器连接的控制器,所述控制器被配置为:
    响应于用户触发系统设置按钮产生的参数设置指令,生成设备参数设置界面,所述设备参数设置界面中呈现有数个用于实现对不同功能进行参数设置的参数设置选项;
    获取每个所述参数设置选项对应的初始设备参数,所述初始设备参数是指对设备参数进行调整前对应的历史设置参数;
    将每个所述参数设置选项对应的初始设备参数存储至临时数据缓存中。
  2. 根据权利要求1所述的显示设备,所述控制器在执行所述将每个所述参数设置选项对应的初始设备参数存储至临时数据缓存中,被进一步配置为:
    基于每个所述参数设备选项和每个对应的初始设备参数,生成选项参数对照列表;
    将所述选项参数对照列表存储至临时数据缓存中。
  3. 根据权利要求1所述的显示设备,所述控制器在执行所述将每个所述参数设置选项对应的初始设备参数存储至临时数据缓存中,被进一步配置为:
    获取每个所述参数设备选项的出厂设备参数;
    基于每个所述参数设备选项和对应的初始设备参数和出厂设备参数,生成选项参数对照列表;
    将所述选项参数对照列表存储至临时数据缓存中。
  4. 根据权利要求1所述的显示设备,所述控制器在执行获取每个所述参数设置选项对应的初始设备参数之前,被进一步配置为:
    获取所述设备参数设置界面的页面属性;
    如果所述页面属性为参数存储属性,则执行获取每个所述参数设置选项对应的初始设备参数的步骤。
  5. 一种显示设备,包括:
    显示器,被配置为呈现展示有系统设置按钮的系统主页和设备参数设置界面;
    与所述显示器连接的控制器,所述控制器被配置为:
    响应于用户触发系统设置按钮产生的参数设置指令,生成设备参数设置界面,所述设备参数设置界面中呈现有参数恢复按钮和数个用于实现对不同功能进行参数设置的参数设置选项;
    响应于用户触发所述参数恢复按钮产生的参数恢复指令,获取每个所述参数设置选项对应的初始化参数;
    基于每个所述参数设置选项对应的初始化参数,将所述参数设备选项对应的当前设备参数恢复至初始化参数,所述当前设备参数是指用户基于每个所述参数设置选项进行参数调整后得到的参数。
  6. 根据权利要求5所述的显示设备,所述参数恢复按钮包括初始参数恢复按钮,所述初始化参数包括初始设备参数;以及,
    所述控制器在执行所述响应于用户触发所述参数恢复按钮产生的参数恢复指令,获取每个所述参数设置选项对应的初始化参数,被进一步配置为:
    响应于用户触发所述初始参数恢复按钮产生的初始参数恢复指令,在所述临时数据缓存中获取每个所述参数设置选项对应的初始设备参数。
  7. 根据权利要求5所述的显示设备,所述参数恢复按钮包括出厂参数恢复按钮,所述初始化参数包括出厂设备参数;以及,
    所述控制器在执行所述响应于用户触发所述参数恢复按钮产生的参数恢复指令,获取每个所述参数设置选项对应的初始化参数,被进一步配置为:
    响应于用户触发所述出厂参数恢复按钮产生的出厂参数恢复指令,在系统缓存中获取每个所述参数设置选项对应的出厂设备参数。
  8. 根据权利要求5所述的显示设备,所述参数恢复按钮包括选项设置界面呈现的选项参数恢复按钮;以及,
    所述控制器在执行所述响应于用户触发所述参数恢复按钮产生的参数恢复指令,获取每个所述参数设置选项对应的初始化参数,被进一步配置为:
    响应于用户触发指定参数设置选项时产生的选项参数设置指令,生成选项设置界面,所述选项设置界面呈现有用于对指定参数设置选项进行参数恢复的选项参数恢复按钮;
    响应于用户触发所述选项参数恢复按钮产生的选项参数恢复指令,在所述临时数据缓存中获取选项参数对照列表;
    在所述选项参数对照列表中查找与所述指定参数设置选项对应的初始化参数。
  9. 根据权利要求8所述的显示设备,所述控制器被进一步配置为:
    获取所述初始设备参数和用户基于所述选项设置界面调整所述指定参数设置选项的参数后产生的当前设备参数;
    基于所述当前设备参数和初始设备参数,生成参数调整对照图,显示在所述选项设置界面中。
  10. 一种显示设备的设备参数的记忆方法,所述方法包括:
    响应于用户触发系统设置按钮产生的参数设置指令,生成设备参数设置界面,所述设备参数设置界面中呈现有数个用于实现对不同功能进行参数设置的参数设置选项;
    获取每个所述参数设置选项对应的初始设备参数,所述初始设备参数是指对设备参数进行调整前对应的历史设置参数;
    将每个所述参数设置选项对应的初始设备参数存储至临时数据缓存中。
  11. 一种显示设备的设备参数的恢复方法,所述方法包括:
    响应于用户触发系统设置按钮产生的参数设置指令,生成设备参数设置界面,所述设备参数设置界面中呈现有参数恢复按钮和数个用于实现对不同功能进行参数设置的参数设置选项;
    响应于用户触发所述参数恢复按钮产生的参数恢复指令,获取每个所述参数设置选项对应的初始化参数;
    基于每个所述参数设置选项对应的初始化参数,将所述参数设备选项对应的当前设备参数恢复至初始化参数,所述当前设备参数是指用户基于每个所述参数设置选项进行参数调整后得到的参数。
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Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP1143335A1 (en) * 2000-04-04 2001-10-10 MTT Medical Technology Transfer AG A method and device for providing a user-defined parameter setting
CN102194437A (zh) * 2011-06-29 2011-09-21 福建捷联电子有限公司 显示器及其显示参数还原方法
CN106648764A (zh) * 2016-12-06 2017-05-10 厦门美图移动科技有限公司 设置项的设置方法和装置
CN107688477A (zh) * 2016-08-04 2018-02-13 北京搜狗科技发展有限公司 设置项的处理方法和装置、用于设置项处理的装置
CN110971974A (zh) * 2019-12-06 2020-04-07 北京小米移动软件有限公司 配置参数创建方法、装置、终端及存储介质
CN112565862A (zh) * 2020-11-23 2021-03-26 海信视像科技股份有限公司 一种显示设备及其设备参数的记忆方法、恢复方法

Patent Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP1143335A1 (en) * 2000-04-04 2001-10-10 MTT Medical Technology Transfer AG A method and device for providing a user-defined parameter setting
CN102194437A (zh) * 2011-06-29 2011-09-21 福建捷联电子有限公司 显示器及其显示参数还原方法
CN107688477A (zh) * 2016-08-04 2018-02-13 北京搜狗科技发展有限公司 设置项的处理方法和装置、用于设置项处理的装置
CN106648764A (zh) * 2016-12-06 2017-05-10 厦门美图移动科技有限公司 设置项的设置方法和装置
CN110971974A (zh) * 2019-12-06 2020-04-07 北京小米移动软件有限公司 配置参数创建方法、装置、终端及存储介质
CN112565862A (zh) * 2020-11-23 2021-03-26 海信视像科技股份有限公司 一种显示设备及其设备参数的记忆方法、恢复方法

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