WO2014005435A1 - Electronic device and remote control method therefor - Google Patents

Abstract

Provided are an electronic device and a remote control method therefor. The electronic device comprises a display screen, a processor and a wireless communication unit. The processor is connected to the display screen and the wireless communication unit. The display screen is divided into at least two display regions, the display regions being in one-to-one correspondence with option boxes of the interface of the display screen. The wireless communication unit is used for receiving a control signal sent from a remote control device. The processor is used for parsing the control signal to acquire a movement parameter of the remote control device, determining a target display region according to the movement parameter, and controlling the display screen to display a prompt state of the target display region to prompt a user of a current selected object. The difficulty whereby a user locates a target object by moving a cursor step by step is overcome, making it convenient for the user to rapidly locate the target object.

Description

 The present invention claims to be submitted to the Chinese Patent Office on July 4, 2012, the application number is 201210229717.4, and the invention name is "an electronic device and its remote control method" Chinese patent application, the entire content of which is The citations are incorporated herein by reference.

Technical field

 The present invention relates to the field of remote control technologies, and in particular, to an electronic device and a remote control method thereof. Background technique

 In order to facilitate the user's operation, the menu interface selection control of the electronic device is usually the remote control setting. In the prior art, when a user needs to remotely operate an electronic device, it is necessary to use a joystick, a remote controller, an air mouse, or a touch screen.

 The traditional air mouse uses the air displacement detector to sense the moving distance and direction of the air mouse to control the movement of the mouse arrow on the screen, thereby selecting the object of the menu interface, but because the pointed position of the mouse arrow corresponds to the pixel of the screen, The display size of the mouse arrow is limited, which is not conducive to the user quickly finding the mouse arrow. Especially for a large electronic device, it is difficult for the user to accurately position the cursor on the screen to a specific location by operating the air mouse. It is not convenient. Summary of the invention

 Embodiments of the present invention provide an electronic device and a remote control method thereof, which are convenient for a user to quickly locate a target object.

 In one aspect, an embodiment of the present invention provides an electronic device, including a display screen, a processor, and a wireless communication unit, wherein the processor is connected to the display screen and the wireless communication unit, and the display screen is divided into at least two displays. a region, the display area corresponding to an option box of the display screen interface, wherein:

The wireless communication unit is configured to receive a control signal sent by the remote control device; The processor is configured to parse the control signal, obtain a movement parameter of the remote control device, and determine a target display area according to the movement parameter; the processor controls the display screen to display a prompt state of the target display area .

 In another aspect, an embodiment of the present invention provides a remote control method for an electronic device, including: receiving a control signal sent by a remote control device;

 Parsing the control signal, acquiring a movement parameter of the remote control device, and determining a target display area according to the movement parameter;

 A prompt state of the target display area is displayed.

 In the electronic device and the remote control method thereof according to the embodiment of the present invention, the target display area of the electronic device is selected by the remote control device, and the display state of the target display area is changed to prompt the user to select the object. Overcoming the difficulty of the user to locate the target object by moving the cursor step by step, it is convenient for the user to quickly locate the 3⁄4 target object. DRAWINGS

 In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings to be used in the embodiments will be briefly described below. Obviously, the drawings in the following description are only some of the present invention. For the embodiments, those skilled in the art can obtain other drawings according to the drawings without any creative work.

 1 is a schematic structural view of a remote control system according to an embodiment of an embodiment of the present invention.

 FIG. 2 is a schematic structural view of an electronic device according to an embodiment of the present invention.

 FIG. 3 is a schematic diagram showing a prompt state of a target display area of the electronic device according to the embodiment of the present invention. 4a-4b are schematic diagrams showing the division of the display area of the electronic device of the embodiment of the present invention.

 5a-5b are schematic diagrams of menu interfaces of the electronic device of the embodiment of the present invention.

 6a-6b are schematic diagrams showing the target display area of the electronic device of the embodiment of the present invention. FIG. 7 is a schematic diagram of the remote control device of the embodiment of the present invention.

FIG. 8 is a schematic flowchart of a remote control method of an electronic device according to an embodiment of the present invention. 9 is a schematic flow chart of generating a control signal by a remote control device according to an embodiment of the present invention. detailed description

 The technical solutions in the embodiments of the present invention are clearly and completely described in the following with reference to the accompanying drawings in the embodiments of the present invention. It is obvious that the described embodiments are a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments obtained by a person of ordinary skill in the art based on the embodiments of the present invention without making creative labor are within the scope of the present invention.

 It should be understood that the technical solutions of the embodiments of the present invention may be applied to various electronic devices, such as: a computer, an electronic reading device, a television, a tablet, and the like. The embodiment of the present invention is not limited to the electronic device, but is convenient for description. The embodiment of the present invention will be described by taking a television set, especially a digital television set as an example.

 1 is an overall architectural diagram of a remote control system of an embodiment of the present invention.

 The remote control system 100 of the embodiment of the present invention includes: a remote control device 10 and an electronic device 20, and the remote control device 10 controls the screen interface selection operation of the electronic device 20 by transmitting a control signal to the electronic device 20. The remote control device 10 can be a device that supports three-dimensional operation, such as: an air mouse, but is not limited thereto.

 The electronic device 20 of the remote control system 100 is further described below in conjunction with the drawings.

 FIG. 2 is a block diagram showing the structure of an electronic device 20 of the embodiment of the present invention.

 In the embodiment of the present invention, the electronic device 20 includes a display screen 21, a processor 22, and a wireless communication unit 23. The processor 22 is connected to the display 21 and the wireless communication unit 23, respectively. The wireless communication unit 23 is for receiving a control signal transmitted by the remote control device 10. The display screen 21 is divided into at least two display areas 33, and each display area 33 corresponds to an option box of the interface of the display screen 21.

The processor 22 is configured to parse the control signal to obtain a movement parameter of the remote control device 10. The target display area is determined based on the movement parameters of the remote control device 10. The movement parameter may correspond to the three-dimensional coordinates of the remote control device 10, and the processor 22 obtains the two-dimensionality of the display screen 21 corresponding to the three-dimensional coordinates according to the mapping relationship between the three-dimensional coordinates of the remote control device 10 and the two-dimensional coordinates of the display screen 21. coordinate. Please refer to FIG. 3 together. FIG. 3 is a schematic diagram of a prompt state of a target display area of the electronic device according to the embodiment of the present invention.

 As can be seen from the above, the electronic device 20 of the embodiment of the present invention selects the target display area of the electronic device through the remote control device 10 and changes the display state of the selected display area 33 to prompt the user to select the object. Overcoming the difficulty of the user to locate the target object by moving the cursor step by step, it is convenient for the user to quickly locate the target object.

 The processor 22 can control the display state of the target display area to change the display state of the target display area, and is used to prompt the user to select the currently displayed display area 33, so that the user can quickly select the display area 33.

 Specifically, an implementation of the electronic device 20 is elaborated through an embodiment.

 4a-4b are schematic diagrams showing the division of the display area of the electronic device of the embodiment of the present invention. The display area 33 of the electronic device 20 corresponds to the option box of the interface of the display screen 21. As shown in Figures 4a-4b, one display area corresponds to an option box.

 In this embodiment, the display screen 21 can correspond to a standard two-dimensional coordinate system XOY. In the two-dimensional coordinate system XOY, the display screen 21 is divided into at least two display areas 33, and each display area 33 corresponds to a two-dimensional The coordinate range ((Xi, Xj ), ( Yi, Yj ) ), for example, the range of the two-dimensional coordinate range of one display area 33 is (Xi, Xj ), and the range of the ordinate is (Yi, Yj ), where , i=0...n, j>i„

 The division of the display area 33 may be continuous division (shown in FIG. 4a), that is, the shortest distance between any two adjacent display areas 33 is less than a threshold. In this embodiment, the threshold is a predetermined number. Pixel values.

 Optionally, according to the interface layout requirement of the user, if a limited number of option boxes are displayed in a single interface, that is, the limited option box cannot fill the interface, the division manner of the display area 33 may be discontinuous division. (shown in Figure 4b), i.e., at least the shortest distance between a set of adjacent display regions 33 is not less than the threshold.

5a-5b are schematic diagrams of menu interfaces of the electronic device of the embodiment of the present invention. It can be understood that the display screen 21 is a menu interface 30 and a content screen for displaying the electronic device 20. Taking a digital television as an example, the menu interface 30 can include a program category menu interface 31, a channel list menu interface 32, a program listing menu interface, and the like. Each menu interface 30 can also include a multi-level sub-menu interface under the menu interface. The content screen can be a video screen of the selected program or channel.

 Each of the menu interfaces 30 includes at least two option boxes, each of which corresponds to a display area 33 of the display screen 21, such as: channels, on-demand, back-view, movies, dramas, and the like as shown in FIG. 5a. The latest online option boxes correspond to one display area 33, respectively. Each of the option boxes of CCTV1, CCTV2 and CCTV3 shown in Fig. 5b also corresponds to a display area 33. In addition, the two-dimensional coordinate range corresponding to the display area 33 can be set according to the size of the option box corresponding to the display area 33.

 In this embodiment, the electronic device 20 may further include a memory, and the memory stores the menu interface 30, the mapping relationship between the three-dimensional coordinates of the remote control device 10 and the two-dimensional coordinates of the display screen 21, and the two-dimensional coordinates corresponding to each display region 33. Range, wherein the three-dimensional coordinate of the remote control device 10 records the moving distance and the moving direction of each coordinate component of the remote control device 10 in the three-dimensional space, and the two-dimensional coordinate records are mapped to the two-dimensional plane of the display screen according to the mapping relationship. The moving distance and moving direction of each coordinate component may be equidistant - mapping, or may be mapped according to a predetermined functional relationship. The memory is also used to store instruction programs, fixed data (work information, variables, parameters, tables), user data, quality control data, etc., and the memory can be a random storage RAM, a read only memory ROM, an E2PROM electrically erasable read only Memory such as memory and FLASH flash memory.

 In this embodiment, the processor 22 receives a control signal sent by the remote control device 10, for example, a remote control code signal, and the remote control code signal is subjected to preamplification, amplitude amplification, band pass filtering, peak detection, and waveform shaping to analyze The three-dimensional coordinates of the remote control device 10 are obtained by the remote control code information.

The processor 22 converts the acquired three-dimensional coordinates into two-dimensional coordinates of the display screen 21 according to the mapping relationship between the three-dimensional coordinates of the remote control device 10 in the memory and the two-dimensional coordinates of the display screen 21. For example, the processor 22 follows the three-dimensional coordinates (ΔΧ, ΔΥ, ΔΖ) of the remote control device 10 along the selected coordinate axis according to the mapping relationship. For example, the Z-axis direction is mapped to the display two-dimensional plane XOY, thereby obtaining corresponding two-dimensional coordinates (ΔΧ1, ΔΥ1).

 6a-6b are schematic diagrams showing the target display area of the electronic device of the embodiment of the present invention. As shown in FIG. 6a, the processor 22 searches for any coordinate point A (e.g., central coordinate point) of the previous selected display area 33 as a reference point (Xa, Ya), which is the reference point (Xa, Ya). Move (ΔΧΙ , ΔΥ1 ) to obtain the current two-dimensional coordinate B ( Xa + Δ ΧΙ , Ya + Δ ΥΙ ) (shown in Figure 6a). In the present embodiment, the current two-dimensional coordinates B ( Xa + Δ ΧΙ , Ya + Δ ΥΙ ) may be located inside the display area 33 or outside the display area 33 (including the boundary).

 The processor 22 determines the range of the two-dimensional coordinates of the display area 33 to which the current two-dimensional coordinates belong, according to the two-dimensional coordinates of the display screen 21 corresponding to the three-dimensional coordinates and a two-dimensional coordinate of the previous selected display area 33. Further, the target display area of the display screen 21 is determined according to the two-dimensional coordinate range.

 The processor 22 determines that the current two-dimensional coordinates do not fall in any two-dimensionality of the display area 33 according to the two-dimensional coordinates of the display screen 21 corresponding to the three-dimensional coordinates and a two-dimensional coordinate of the previous selected display area 33. Within the range of coordinates, at this time, the processor 22 can determine the display area 33 closest to the current two-dimensional coordinates as the target display area. For example, the processor 22 determines the display area 33 closest to the current two-dimensional coordinates as the target display area, and includes, by the processor 22, determining the shortest distance of the display area 33 adjacent to the current two-dimensional coordinates, and further determining the shortest distances among the shortest distances. The display area 33 corresponding to the minimum value serves as a target display area.

Optionally, as shown in FIG. 6b, the processor 22 further searches for a two-dimensional coordinate range ((Xa, Xb), (Y, Yb)) corresponding to the previous selected display area 33, according to the two-dimensional coordinate variable. (ΔΧ1 , ΔΥ1 ) moves the two-dimensional coordinate range ((Xa, Xb ), ( Ya, Yb ) ) by (ΔΧΙ , ΔΥΙ ), thereby obtaining the current two-dimensional coordinate range ((Xa+ΔΧΙ , Xb+ΔΧΙ ), ( Ya + Δ ΥΙ , Yb + Δ ΥΙ ) ) „ In the present embodiment, the current two-dimensional coordinate range (( Xa + Δ ΧΙ , Xb + Δ ΧΙ ), ( Ya + Δ ΥΙ , Yb + Δ ΥΙ ) ) and at least one display area 33 The two-dimensional coordinate range is associated with or not associated with the two-dimensional coordinate range of any display area 33, wherein the current two-dimensional coordinate range and display area 33 Correlation means that the current two-dimensional coordinate range intersects the two-dimensional coordinate range of the display area 33.

 The processor 22 determines whether there is a display area 33 associated with the current two-dimensional coordinate range, and if there is an associated display area 33, respectively determining pixel points of the associated display area 33 and the current two-dimensional coordinate range, And the display area 33 including the largest number of pixels is determined as the target display area.

 The processor 22 determines that there is no display area 33 associated with the current two-dimensional coordinate range, and determines the display area 33 closest to the current two-dimensional coordinate range as the target display area, and the processor 22 determines that there is no current The display area 33 associated with the two-dimensional coordinate range may also not execute any instructions.

 For example, the processor 22 determines a display area 33 adjacent to the current two-dimensional coordinate range, and further calculates each adjacent display area 33 of the adjacent display areas 33 and the current two-dimensional coordinate range. The shortest distance, and the minimum of the predetermined distances is calculated, and the display area 33 corresponding to the minimum value is further determined as the target display area.

 After determining the target display area, the processor 22 can change the display state of the target display area to the prompt state.

 For example: the prompt state is to highlight the target display area i or, and the target display area may be enlarged, and then the target display area may be highlighted or recessed to enable the user to clearly recognize the currently selected target display area, and then The prompt state and the audible prompt are combined to further prompt the user.

 The processor 22 further determines whether a selection signal of the remote control device 10 is received, and if so, executes an instruction corresponding to the target display area. Otherwise, the control signal sent by the remote control device 10 continues to be received.

 In the embodiment of the present invention, after the user turns on the electronic device 20, the coordinate range corresponding to the initialization target display area of the electronic device 20 is ((X0, XI), (Y0, Yl)). After the initialization of the electronic device 20, the displayed menu interface 30 is a menu interface 31 of the program category, which may include: channels, on-demand, movies, entertainment programs, dramas, news, and the like.

In this embodiment, the wireless communication unit 23 enters the remote control device 10 through a wireless communication channel. Wireless communication transmission, the wireless communication channel can be a communication channel established by any wireless communication technology such as radio frequency (RF), Bluetooth (Bluetooth), Wi-Fi, ZigBee. In this embodiment, the wireless communication unit 23 includes an RF module with a receiving antenna.

 FIG. 7 is a schematic diagram of the remote control device of FIG. 1 according to an embodiment of the present invention. The remote control device 10 establishes a three-dimensional coordinate system for determining the three-dimensional coordinate variables of the remote control device 10 of the present invention in the coordinate system.

 The remote control device 10 in this embodiment includes a detection module 11, a wireless transmission module 12, an MCU (Micro Controller Unit) control module 14, and a selection button 15. The control module 14 is electrically connected to the detecting module 11, the wireless transmitting module 12, and the selection button 15, respectively. In this embodiment, the detecting module 11 may be a gyroscope or a detecting device combining a gyroscope and an acceleration sensor. The detecting module 11 detects an analog voltage signal generated by the movement or shaking of the remote control device 10, and the control module 14 converts the analog voltage into a three-dimensional coordinate digital signal, and sends the analog voltage to the wireless transmitting module 12, and then sends the signal through the wireless transmitting module 12. The wireless communication unit 23 of the electronic device 20.

 Further, when the user finds the target display area to be selected on the display 21 of the electronic device 20, a selection signal is generated by pressing the selection button 15 of the remote control device 10, and the selection signal is transmitted to the wireless communication unit 23 via the wireless transmission module 12.

 FIG. 8 is a schematic flowchart of a remote control method of an electronic device according to an embodiment of the present invention.

 820. The electronic device 20 receives a control signal sent by the remote control device 10.

 For example, the wireless communication unit 23 of the electronic device 20 performs wireless communication transmission with the remote control device 10 through a wireless communication channel, for example, receiving a control signal of the remote control device 10, which includes radio frequency (RF), Bluetooth (Bluetooth). ), Wi-Fi, ZigBee and other communication channels established by any wireless communication technology.

 830. The electronic device 20 parses the control signal to acquire a movement parameter of the remote control device 10. Wherein, the movement parameter corresponds to the three-dimensional coordinates of the remote control device 10.

 840. Determine a target display area according to a movement parameter of the remote control device 10.

Wherein, step 840 can be performed by processor 22 in electronic device 20. For example, processor 22, according to the pre-stored mapping relationship, the three-dimensional coordinates (ΔΧ, ΔΥ, ΔΖ) of the remote control device 10 are mapped in the Z-axis direction to the two-dimensional plane XOY of the display screen, thereby acquiring corresponding two-dimensional coordinates (ΔΧ1, ΔΥ1), wherein The mapping relationship records the mapping relationship between the three-dimensional coordinates of the remote control device 10 and the two-dimensional coordinates of the display screen 21, and the three-dimensional coordinates of the remote control device 10 records the moving distance and the moving direction of each coordinate component of the remote control device 10 in the three-dimensional space. The dimensional coordinates record the moving distance and moving direction of each coordinate component mapped to the two-dimensional plane of the display screen according to the mapping relationship.

 The processor 22 finds any coordinate point A (e.g., central coordinate point) of the previous selected display area 33 as a reference point (Xa, Ya), and moves the reference point (Xa, Ya) (ΔΧΙ, ΔΥ1) Thus, the current two-dimensional coordinate B (Xa+ΔΧΙ, Ya+ΔΥΙ) is obtained (shown in Fig. 6a). In the present embodiment, the current two-dimensional coordinates B ( Xa + Δ ΧΙ , Ya + Δ ΥΙ ) may be located inside the display area 33 or outside the display area 33 (including the boundary).

 The processor 22 determines the range of the two-dimensional coordinates of the display area 33 to which the current two-dimensional coordinates belong, according to the two-dimensional coordinates of the display screen 21 corresponding to the three-dimensional coordinates and a two-dimensional coordinate of the previous selected display area 33. And determining a target display area of the display screen according to the two-dimensional coordinate range.

 The processor 22 determines that the current two-dimensional coordinates do not fall in any two-dimensionality of the display area 33 according to the two-dimensional coordinates of the display screen 21 corresponding to the three-dimensional coordinates and a two-dimensional coordinate of the previous selected display area 33. Within the range of coordinates, the processor 22 determines the display area 33 that is closest to the current two-dimensional coordinates as the target display area. For example, the processor 22 determines the display area 33 closest to the current two-dimensional coordinates as the target display area, and includes, by the processor 22, determining the shortest distance of the display area 33 adjacent to the current two-dimensional coordinates, and further determining the shortest distances among the shortest distances. The display area 33 corresponding to the minimum value serves as a target display area.

Optionally, as shown in FIG. 6b, the processor 22 further searches for a two-dimensional coordinate range ((Xa, Xb), (Y, Yb)) corresponding to the previous selected display area 33, according to the two-dimensional coordinate variable. (ΔΧ1 , ΔΥ1 ) moves the two-dimensional coordinate range ((Xa, Xb ), ( Ya, Yb ) ) by (ΔΧΙ , ΔΥΙ ), thereby obtaining the current two-dimensional coordinate range ((Xa+ΔΧΙ , Xb+ΔΧΙ ), (Ya + ΔΥΙ , Yb + ΔΥΙ ) ) (shown in Figure 6b). In this embodiment, the current two-dimensional coordinate range (( Xa + Δ ΧΙ , Xb + Δ ΧΙ ), ( Ya + Δ ΥΙ , Yb+ΔΥΙ)) may or may not be associated with a two-dimensional coordinate range of at least one display area 33, and may not be associated with a two-dimensional coordinate range of any display area 33, wherein the current two-dimensional coordinate range is related to the display area 33 The joint means that the current two-dimensional coordinate range intersects the two-dimensional coordinate range of the display area 33.

 The processor 22 determines whether there is a display area 33 associated with the current two-dimensional coordinate range, and if there is an associated display area 33, respectively determining pixel points of the associated display area 33 and the current two-dimensional coordinate range, And the display area 33 including the largest number of pixels is determined as the target display area.

 The processor 22 determines that there is no display area 33 associated with the current two-dimensional coordinate range, and determines the display area 33 closest to the current two-dimensional coordinate range as the target display area, and the processor 22 determines that there is no current The display area 33 associated with the dimension coordinate range may also not execute any instructions.

 For example, the processor 22 determines a display area 33 adjacent to the current two-dimensional coordinate range, and further calculates each adjacent display area 33 of the adjacent display areas 33 and the current two-dimensional coordinate range. The shortest distance, and calculating the minimum of the predetermined distances, further determining the display area corresponding to the minimum value as the target display area.

 850, displaying the prompt state of the target display area.

 The step 850 can be performed by the processor 22 in the electronic device 20.

 The prompt state is to highlight the target display area, and the target display area may be enlarged, and the target display area may be displayed in a convex or concave manner, so that the user can clearly recognize the currently selected target display area, and then the prompt The state and the audible prompt are combined to further prompt the user.

 As can be seen from the above, the method of the embodiment of the present invention selects the target display area of the electronic device 20 by the remote control device 10 and changes the display state of the selected display area 33 to prompt the user to select the object currently. Overcoming the difficulty of the user to locate the target object by moving the cursor step by step, it is convenient for the user to quickly locate the target object.

Further, the method may further include a step 860 of determining whether the selection of the remote control device 10 is received. Signal, if yes, step 870 is performed. Otherwise, return to step 810.

 870: execute an instruction corresponding to the target display area.

 Step 860 and step 870 can be performed by processor 22.

 It can be understood that before the electronic device is shipped from the factory, the method may further include:

 810. The display screen 21 of the divided electronic device is at least two display areas 33, and each display area

33 corresponds to the interface option box of the display screen 21.

 For example, the display screen 21 corresponds to a standard two-dimensional coordinate system XOY. In the two-dimensional coordinate system XOY, the display screen 21 is divided into at least two display areas 33, and each display area 33 corresponds to a two-dimensional coordinate range (( Xi, Xj ), ( Yi, Yj ) ), for example, the range of the two-dimensional coordinate range of one display area 33 is (Xi, Xj ), and the range of the ordinate is (Yi, Yj ), where i=0 ...n, j>i.

 The division of the display area 33 may be continuous division (shown in FIG. 4a), that is, the shortest distance between any two adjacent display areas 33 is less than a threshold. In this embodiment, the threshold is a predetermined number. Pixel values.

 Optionally, according to the interface layout requirement of the user, if a limited number of option boxes are displayed in a single interface, that is, the limited option box cannot fill the interface, the division manner of the display area 33 may be discontinuous division. (shown in Figure 4b), i.e., at least the shortest distance between a set of adjacent display regions 33 is not less than the threshold.

 FIG. 9 is a schematic flow chart of the remote control device 10 generating a control signal according to an embodiment of the present invention.

 In this embodiment, the remote control device 10 may be a gyroscope or a detecting device combined with a gyroscope and an acceleration sensor.

 910. Detect an analog voltage signal generated by the movement or shaking of the remote control device 100.

 920. Convert the analog voltage into a three-dimensional coordinate digital signal and send the signal to the wireless transmitting module 12. 930. Send a three-dimensional coordinate digital signal to the wireless communication unit 23 of the electronic device 20.

When the user finds the display area 33 to be selected on the display screen 21 of the electronic device 20 and clicks or activates the option box corresponding to the target display area, a selection signal is generated by pressing the remote control button 15 of the remote control device 10, and the selection signal is wirelessly transmitted. Module 12 is sent to wireless communication unit 23. In the electronic device and the remote control method thereof according to the embodiment of the present invention, the target display area of the electronic device 20 is selected by the remote control device 10, and the display state of the target display area is changed according to the control signal to prompt the user to select the object currently. Overcoming the difficulty of the user to locate the target object by moving the cursor step by step, changing the display state of the target display area 31 is convenient for the user to quickly locate the target object, thereby bringing a better experience to the user.

 The functions, if implemented in the form of software functional units and sold or used as separate products, may be stored in a computer readable storage medium. Based on such understanding, the technical solution of the present invention, which is essential or contributes to the prior art, or a part of the technical solution, may be embodied in the form of a software product, which is stored in a storage medium, including The instructions are used to cause a computer device (which may be a personal computer, server, or network device, etc.) to perform all or part of the steps of the methods described in various embodiments of the present invention. The foregoing storage medium includes: a U disk, a removable hard disk, a read-only memory (ROM), a random access memory (RAM), a magnetic disk or an optical disk, and the like, which can store program codes. .

 The above is only the specific embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily think of changes or substitutions within the technical scope of the present invention. It should be covered by the scope of the present invention. Therefore, the scope of the invention should be determined by the scope of the appended claims.

Claims

claims

1. An electronic device, including a display screen and a processor, characterized in that: the electronic device further includes a wireless communication unit, the processor connects the display screen and the wireless communication unit, and the display screen is divided into At least two display areas, the display area corresponds to the option box of the display screen interface, wherein: the wireless communication unit is used to receive the control signal sent by the remote control device; the processor is used to analyze the The control signal is used to obtain the movement parameters of the remote control device, and the target display area is determined according to the movement parameters; the processor controls the display screen to display the prompt status of the target display area.

2. The electronic device according to claim 1, wherein the processor is configured to analyze the control signal, obtain the movement parameters of the remote control device, and determine the target display area according to the movement parameters, including: The processor parses the control signal to obtain the three-dimensional coordinates of the remote control device; obtains the two-dimensional coordinates of the display screen corresponding to the three-dimensional coordinates according to the mapping relationship between the three-dimensional coordinates of the remote control device and the two-dimensional coordinates of the display screen; The target display area is determined according to the two-dimensional coordinates of the display screen corresponding to the three-dimensional coordinates.

3. The electronic device according to claim 2, wherein the processor obtains the two-dimensional coordinates of the display screen corresponding to the three-dimensional coordinates according to the mapping relationship between the three-dimensional coordinates of the remote control device and the two-dimensional coordinates of the display screen. The coordinates include: the processor 4 maps the three-dimensional coordinates of the remote control device to the two-dimensional plane of the display screen along the direction of the selected coordinate axis according to the mapping relationship between the three-dimensional coordinates of the remote control device and the two-dimensional coordinates of the display screen, To obtain the corresponding two-dimensional coordinates.

4. The electronic device according to claim 2 or 3, characterized in that the processor The two-dimensional coordinates of the display screen corresponding to the above three-dimensional coordinates determine the target display area, including:

The processor determines the range of the two-dimensional coordinates of the display area to which the current two-dimensional coordinates are located based on the two-dimensional coordinates of the display screen corresponding to the three-dimensional coordinates and a two-dimensional coordinate in the previously selected display area, Among them, each display area corresponds to a range of two-dimensional coordinates;

The processor determines a target display area of the display screen according to the range of the attributed two-dimensional coordinates.

5. The electronic device according to claim 2 or 3, wherein the processor determines the target display area according to the two-dimensional coordinates of the display screen corresponding to the three-dimensional coordinates, including:

The processor determines the target display area based on the two-dimensional coordinates of the display screen corresponding to the three-dimensional coordinates and the two-dimensional coordinate range of the previously selected display area.

6. The electronic device according to claim 5, characterized in that the processor determines the two-dimensional coordinates of the display screen corresponding to the three-dimensional coordinates and the two-dimensional coordinate range of the previously selected display area. Target display area, including:

The processor searches for the two-dimensional coordinate range corresponding to the previously selected display area, and obtains the current two-dimensional coordinate range according to the two-dimensional coordinates;

The processor determines whether there is a display area associated with the current two-dimensional coordinate range; if there is an associated display area, calculate respectively the pixel points where the associated display area intersects with the current two-dimensional coordinate range, and Determine the display area containing the most pixels as the target display area.

7. The electronic device according to claim 1, wherein the prompt state is highlighting the target display area, enlarging the target display area, protruding the target display area, or recessing the target display area.

8. A remote control method for electronic equipment, characterized in that it includes: receiving a control signal sent by a remote control device; analyzing the control signal to obtain movement parameters of the remote control device; Determine the target display area according to the movement parameter; display the prompt status of the target display area.

9. The remote control method according to claim 8, characterized in that: parsing the control signal, obtaining movement parameters of the remote control device, and determining the target display area according to the movement parameters includes: parsing the control signal, obtaining The three-dimensional coordinates of the remote control device; The two-dimensional coordinates of the display screen corresponding to the three-dimensional coordinates are obtained according to the mapping relationship between the three-dimensional coordinates of the remote control device and the two-dimensional coordinates of the display screen; The two-dimensional coordinates of the display screen corresponding to the three-dimensional coordinates are obtained The dimensional coordinates determine the target display area.

10. The remote control method according to claim 9, wherein the two-dimensional coordinates of the display screen corresponding to the three-dimensional coordinates are obtained based on the mapping relationship between the three-dimensional coordinates of the remote control device and the two-dimensional coordinates of the display screen. The steps include: mapping the three-dimensional coordinates of the remote control device to the two-dimensional plane of the display screen along the direction of the selected coordinate axis according to the mapping relationship between the three-dimensional coordinates of the remote control device and the two-dimensional coordinates of the display screen, thereby obtaining the corresponding two-dimensional coordinates. dimensional coordinates.

11. The remote control method according to claim 9 or 10, characterized in that the step of determining the target display area according to the two-dimensional coordinates of the display screen corresponding to the three-dimensional coordinates includes: according to the two-dimensional coordinates of the display screen corresponding to the three-dimensional coordinates. The two-dimensional coordinates, as well as the one-dimensional coordinates in the previously selected display area, determine the range of the two-dimensional coordinates of the current two-dimensional coordinates in the display area to which they belong, where each display area corresponds to a range of two-dimensional coordinates; according to The range of the attributed two-dimensional coordinates determines the target display area of the display screen.

12. The remote control method according to claim 9 or 10, wherein the step of determining the target display area based on the two-dimensional coordinates of the display screen corresponding to the three-dimensional coordinates includes: based on the two-dimensional coordinates of the display screen corresponding to the three-dimensional coordinates. coordinates, and the previously selected display area The two-dimensional coordinate range of the domain determines the target display area.

13. The remote control method according to claim 12, wherein determining the target display area according to the two-dimensional coordinates of the display screen corresponding to the three-dimensional coordinates and the two-dimensional coordinate range of the previously selected display area includes: Steps: Find the two-dimensional coordinate range corresponding to the previously selected display area, obtain the current two-dimensional coordinate range according to the two-dimensional coordinates; determine whether there is a display area associated with the current two-dimensional coordinate range;

If there is an associated display area, calculate the pixel points that intersect the associated display area with the current two-dimensional coordinate range, and determine the display area containing the most pixel points as the target display area.