CN111562867B - Image display control method and device and display device - Google Patents

Abstract

The invention provides an image display control method and device and a display device, and relates to the technical field of display. The method comprises the steps of determining an operation gesture of an OSD image displayed at a first display position on a display screen according to a detection result of a detection assembly, determining a second display position of the OSD image after position change from the first display position on the display screen according to the operation gesture and the first display position of the OSD image on the display screen, fusing the OSD image and the display image according to the second display position to obtain a target fusion image, and controlling the display screen to display the target fusion image. After the OSD image is called, the display position of the OSD image on the display screen is quickly and conveniently changed by using the operation gesture, so that the problem of inconvenient operation when a user uses the OSD image to carry out relevant setting is solved, and the operation convenience of the user is improved.

Description

Image display control method and device and display device

Technical Field

The present invention relates to the field of display technologies, and in particular, to an image display control method and apparatus, and a display apparatus.

Background

With the development of Display technology, Display devices are widely used in various fields, and during the use of the Display devices, it is usually necessary to call an OSD (On-Screen Display) image, select a Display channel, and configure various parameters related to the Display.

At present, when the OSD image is called, the OSD image can only be displayed at a fixed position of the display screen, which causes inconvenience in operation when the user uses the OSD image to perform related settings.

Disclosure of Invention

The invention provides an image display control method and device and a display device, which are used for solving the problem that when an OSD image is called, the OSD image can only be displayed at a fixed position of a display screen, so that a user is inconvenient to operate when the OSD image is used for carrying out related setting.

In order to solve the above problem, the present invention discloses an image display control method applied to a display device including a display screen and a detection component, the method including:

according to the detection result of the detection component, determining an operation gesture of an OSD image displayed at a first display position on the display screen;

determining a second display position of the OSD image after the position of the OSD image on the display screen is changed from the first display position according to the operation gesture and the first display position of the OSD image on the display screen;

fusing the OSD image and the display image according to the second display position to obtain a target fused image;

and controlling the display screen to display the target fusion image.

In order to solve the above problem, the present invention also discloses an image display control apparatus applied to a display apparatus, the display apparatus including a display screen and a detection component, the apparatus including:

an operation gesture determination module configured to determine an operation gesture for an OSD image displayed for a first display position on the display screen according to a detection result of the detection component;

a second display position determination module configured to determine, according to the operation gesture and a first display position of the OSD image on the display screen, a second display position of the OSD image after a position change from the first display position on the display screen;

the image fusion module is configured to fuse the OSD image and the display image according to the second display position to obtain a target fusion image;

an image display module configured to control the display screen to display the target fusion image.

In order to solve the above problems, the present invention further discloses a display device, which includes a display screen, a detection assembly and the image display control device.

Compared with the prior art, the invention has the following advantages:

according to the detection result of the detection component, determining an operation gesture of the OSD image displayed aiming at the first display position on the display screen, according to the operation gesture and the first display position of the OSD image on the display screen, determining a second display position of the OSD image after position change from the first display position on the display screen, according to the second display position, fusing the OSD image and the display image to obtain a target fusion image, and controlling the display screen to display the target fusion image. After the OSD image is called, the display position of the OSD image on the display screen is quickly and conveniently changed by using the operation gesture, namely the display position of the OSD image on the display screen is changed from the first display position to the second display position, so that the problem of inconvenient operation when a user uses the OSD image to carry out relevant setting is solved, and the operation convenience of the user is improved.

Drawings

Fig. 1 shows a flowchart of an image display control method of an embodiment of the present invention;

FIG. 2 is a diagram illustrating an OSD image of an embodiment of the invention when a first display position on a display screen is an upper left corner of the display screen;

FIG. 3 is a diagram illustrating an OSD image of an embodiment of the invention when a first display position on a display screen is a lower left corner of the display screen;

FIG. 4 is a diagram illustrating an OSD image of an embodiment of the invention when a first display position on a display screen is an upper right corner of the display screen;

FIG. 5 is a diagram illustrating an OSD image of an embodiment of the invention when a first display position on a display screen is a lower right corner of the display screen;

fig. 6 is a schematic diagram illustrating an OSD image according to an embodiment of the present invention when a first display position on a display screen is a display screen center position;

FIG. 7 is a diagram illustrating an embodiment of the present invention after changing the OSD image from the lower right corner of the display screen to the lower left corner of the display screen shown in FIG. 5;

fig. 8 is a detailed flowchart showing an image display control method according to an embodiment of the present invention;

fig. 9 illustrates an architecture diagram for fusing an OSD image and a display image according to an embodiment of the present invention;

fig. 10 is a block diagram showing a configuration of an image display control apparatus according to an embodiment of the present invention.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in further detail below.

Example one

Referring to fig. 1, a flowchart of an image display control method according to an embodiment of the present invention is shown, which may specifically include the following steps:

step 101, determining an operation gesture of the OSD image displayed at the first display position on the display screen according to the detection result of the detection component.

In an embodiment of the present invention, the image display control method is applied to a display device including a display screen and a detection component. The display screen is used for displaying a display image and a called OSD image; the detection component is used for detecting an operation gesture of a user on the OSD image displayed at the first display position on the display screen.

The display image refers to a picture to be displayed on a display screen, and the picture can be a frame of picture in a video signal or an image; the OSD image is drawn by an SOC (System on Chip) Chip, and is generally a rectangular menu of various items of adjustment item information popped up on a display screen after a user presses a menu key on the display device or presses an I/O (Input/Output) device connected to the display device, where the Input/Output device may be a keyboard, a mouse, a remote controller, and the like, and the user may select a display channel and configure various parameters related to display through the rectangular menu, such as adjusting color, mode, brightness, and the like of the display screen, thereby achieving an optimal use state.

After the user calls the OSD image, the OSD image is displayed at a first display position on the display screen, when the user needs to change the display position of the OSD image on the display screen, the user carries out gesture operation on the OSD image displayed at the first display position on the display screen, and then the detection assembly detects the gesture operation of the user to obtain a detection result.

The detection component is connected with an FPGA (Field Programmable Gate Array) chip, the detection component sends a detection result to the FPGA chip after detecting the detection result, and the FPGA chip determines an operation gesture of a user for the OSD image displayed at the first display position on the display screen according to the detection result. The operation gesture is used for changing the display position of the OSD image, and the moving direction corresponding to the operation gesture, namely the moving direction when the OSD image moves from the first display position, is also used for changing the display position of the OSD image.

The detection assembly comprises a plurality of infrared detection devices corresponding to the display position of each OSD image, each infrared detection device comprises an infrared emission unit and an infrared receiving unit which are oppositely arranged, the infrared emission unit is configured to emit infrared light, and the infrared receiving unit is configured to receive the infrared light emitted by the corresponding infrared emission unit.

In the embodiment of the invention, an operation gesture of a user for displaying the OSD image at the first display position on the display screen can be detected based on the infrared detection device. Of course, it is understood that the detection component is not limited to the infrared detection device, that is, an operation gesture of the user for displaying the OSD image at the first display position on the display screen may also be detected by another detection component, for example, an operation gesture of the user for displaying the OSD image at the first display position on the display screen is detected by a touch panel, a camera, and the like.

As shown in fig. 2 to 6, 10 is a display screen in a display apparatus, a plurality of infrared detection devices corresponding to a display position of each OSD image are provided in a frame of the display apparatus, 18 infrared detection devices are collectively shown in the display apparatus shown in fig. 2 to 6, 9 infrared detection devices are provided in left and right frames parallel to a column direction of the display screen 10, and 9 infrared detection devices are also provided in upper and lower frames parallel to a row direction of the display screen 10.

In the left and right frames of the display apparatus, the first infrared detection device includes an infrared emission unit a11 and an infrared reception unit B11 which are oppositely arranged, the second infrared detection device includes an infrared emission unit a12 and an infrared reception unit B12 which are oppositely arranged, the third infrared detection device includes an infrared emission unit a13 and an infrared reception unit B13 which are oppositely arranged, the fourth infrared detection device includes an infrared emission unit a14 and an infrared reception unit B14 which are oppositely arranged, the fifth infrared detection device includes an infrared emission unit a15 and an infrared reception unit B15 which are oppositely arranged, the sixth infrared detection device includes an infrared emission unit a16 and an infrared reception unit B16 which are oppositely arranged, the seventh infrared detection device includes an infrared emission unit a17 and an infrared reception unit B17 which are oppositely arranged, the eighth infrared detection device includes an infrared emission unit a18 and an infrared reception unit B18 which are oppositely arranged, the ninth infrared detection device includes an infrared emitting unit a19 and an infrared receiving unit B19 which are oppositely disposed.

In the upper and lower frames of the display device, the first infrared detection device includes an infrared emission unit a21 and an infrared reception unit B21 which are oppositely arranged, the second infrared detection device includes an infrared emission unit a22 and an infrared reception unit B22 which are oppositely arranged, the third infrared detection device includes an infrared emission unit a23 and an infrared reception unit B23 which are oppositely arranged, the fourth infrared detection device includes an infrared emission unit a24 and an infrared reception unit B24 which are oppositely arranged, the fifth infrared detection device includes an infrared emission unit a25 and an infrared reception unit B25 which are oppositely arranged, the sixth infrared detection device includes an infrared emission unit a26 and an infrared reception unit B26 which are oppositely arranged, the seventh infrared detection device includes an infrared emission unit a27 and an infrared reception unit B27 which are oppositely arranged, the eighth infrared detection device includes an infrared emission unit a28 and an infrared reception unit B28 which are oppositely arranged, the ninth infrared detection device includes an infrared emitting unit a29 and an infrared receiving unit B29 which are oppositely disposed.

Specifically, the emitting surface of each infrared emitting unit is perpendicular to the plane of the display screen 10, and the receiving surface of each infrared receiving unit is also perpendicular to the plane of the display screen 10; aiming at the same infrared detection device, the emitting surface of the infrared emitting unit and the receiving surface of the infrared receiving unit are arranged oppositely and are positioned on the same horizontal line.

It should be noted that each infrared transmitting unit may also have a function of receiving infrared light at the same time, and each infrared receiving unit may also have a function of transmitting infrared light at the same time, that is, each infrared transmitting unit may transmit infrared light to the corresponding infrared receiving unit, and may also receive infrared light transmitted by the corresponding infrared receiving unit.

In addition, fig. 2 to 6 show that the infrared transmitting units are located on the left frame and the upper frame of the display device, and the infrared receiving units are located on the right frame and the lower frame of the display device, of course, the specific positions of the infrared transmitting units and the infrared receiving units in the frame are not limited to the positions shown in fig. 2 to 6, and it is also possible to provide the infrared transmitting units on the right frame and the lower frame of the display device, and provide the infrared receiving units on the left frame and the upper frame of the display device; and, every frame also can both set up infrared emission unit and set up infrared receiving unit, if set up infrared emission unit in the upper portion of the frame on the left, set up infrared receiving unit in the lower part of the frame on the left, then set up infrared receiving unit in the upper portion of the frame on the right, then set up infrared emission unit in the lower part of the frame on the right.

In the embodiment of the present invention, after the OSD image is called, the first display position on the OSD image display screen 10 may be a fixed position set by the user, which may be an upper left corner, a lower left corner, an upper right corner, a lower right corner, or a central position of the display screen 10.

As shown in fig. 2, the first display position of the OSD image 20 on the display screen 10 is the upper left corner of the display screen 10, and at this time, the infrared detection device corresponding to the first display position of the OSD image 20 includes: an infrared detection device consisting of an infrared emission unit A11 and an infrared receiving unit B11, an infrared detection device consisting of an infrared emission unit A12 and an infrared receiving unit B12, an infrared detection device consisting of an infrared emission unit A13 and an infrared receiving unit B13, an infrared detection device consisting of an infrared emission unit A21 and an infrared receiving unit B21, an infrared detection device consisting of an infrared emission unit A22 and an infrared receiving unit B22, and an infrared detection device consisting of an infrared emission unit A23 and an infrared receiving unit B23.

As shown in fig. 3, the first display position of the OSD image 20 on the display screen 10 is the lower left corner of the display screen 10, and at this time, the infrared detection device corresponding to the first display position of the OSD image 20 includes: an infrared detection device consisting of an infrared emission unit A17 and an infrared receiving unit B17, an infrared detection device consisting of an infrared emission unit A18 and an infrared receiving unit B18, an infrared detection device consisting of an infrared emission unit A19 and an infrared receiving unit B19, an infrared detection device consisting of an infrared emission unit A21 and an infrared receiving unit B21, an infrared detection device consisting of an infrared emission unit A22 and an infrared receiving unit B22, and an infrared detection device consisting of an infrared emission unit A23 and an infrared receiving unit B23.

As shown in fig. 4, the first display position of the OSD image 20 on the display screen 10 is the upper right corner of the display screen 10, and at this time, the infrared detection device corresponding to the first display position of the OSD image 20 includes: an infrared detection device consisting of an infrared emission unit A11 and an infrared receiving unit B11, an infrared detection device consisting of an infrared emission unit A12 and an infrared receiving unit B12, an infrared detection device consisting of an infrared emission unit A13 and an infrared receiving unit B13, an infrared detection device consisting of an infrared emission unit A27 and an infrared receiving unit B27, an infrared detection device consisting of an infrared emission unit A28 and an infrared receiving unit B28, and an infrared detection device consisting of an infrared emission unit A29 and an infrared receiving unit B29.

As shown in fig. 5, the first display position of the OSD image 20 on the display screen 10 is the lower right corner of the display screen 10, and at this time, the infrared detection device corresponding to the first display position of the OSD image 20 includes: an infrared detection device consisting of an infrared emission unit A17 and an infrared receiving unit B17, an infrared detection device consisting of an infrared emission unit A18 and an infrared receiving unit B18, an infrared detection device consisting of an infrared emission unit A19 and an infrared receiving unit B19, an infrared detection device consisting of an infrared emission unit A27 and an infrared receiving unit B27, an infrared detection device consisting of an infrared emission unit A28 and an infrared receiving unit B28, and an infrared detection device consisting of an infrared emission unit A29 and an infrared receiving unit B29.

As shown in fig. 6, the first display position of the OSD image 20 on the display screen 10 is the center position of the display screen 10, and at this time, the infrared detection device corresponding to the first display position of the OSD image 20 includes: an infrared detection device consisting of an infrared emission unit A14 and an infrared receiving unit B14, an infrared detection device consisting of an infrared emission unit A15 and an infrared receiving unit B15, an infrared detection device consisting of an infrared emission unit A16 and an infrared receiving unit B16, an infrared detection device consisting of an infrared emission unit A24 and an infrared receiving unit B24, an infrared detection device consisting of an infrared emission unit A25 and an infrared receiving unit B25, and an infrared detection device consisting of an infrared emission unit A26 and an infrared receiving unit B26.

Therefore, in fig. 2 to 6, each display position of the OSD image corresponds to 6 infrared detection devices, and certainly, the number of the infrared detection devices corresponding to each display position of the OSD image in the embodiment of the present invention is not limited to 6, and may be 8, 10, and the like.

For example, after the OSD image 20 is called, the first display position of the OSD image 20 on the display screen 10 is the lower right corner of the display screen 10, and the operation gesture of the OSD image 20 displayed for the first display position on the display screen 10 is a leftward sliding.

Step 102, determining a second display position of the OSD image after position change from the first display position on the display screen according to the operation gesture and the first display position of the OSD image on the display screen.

In the embodiment of the invention, according to the detected operation gesture and the first display position of the OSD image on the display screen, the second display position of the OSD image on the display screen after the position of the OSD image is changed from the first display position is determined. Wherein the first display position and the second display position are not the same position.

For example, if the first display position is the lower right corner of the display screen 10 and the operation gesture is a leftward sliding, it is determined that the second display position of the OSD image 20 is the lower left corner of the display screen 10.

And 103, fusing the OSD image and the display image according to the second display position to obtain a target fusion image.

In the embodiment of the invention, after the second display position of the OSD image after position change is determined, the OSD image and the display image are fused according to the second display position to obtain the target fusion image.

It should be noted that the specific process of fusing the OSD image and the display image is performed in the FPGA chip, and when fusing the images, the image data of the OSD image and the image data of the display image are actually fused.

And 104, controlling the display screen to display the target fusion image.

In the embodiment of the present invention, after the target fusion image is obtained, the FPGA chip may send the target fusion image to a TCON (Timer Control Register, timing controller), process the target fusion image through the timing controller, send the processed target fusion image to the driving chip, and display the target fusion image on the display screen through the driving chip, so as to Control the display screen to display the target fusion image.

For example, the second display position of the OSD image 20 is the lower left corner of the display screen 10, and when the target fusion image obtained by fusing the OSD image 20 and the display image is displayed on the display screen 10, as shown in fig. 7, it can be seen that the OSD image 20 is displayed on the lower left corner of the display screen 10, and the display area except for the lower left corner of the display screen 10 displays the display image.

Alternatively, if the first display position is the upper right corner of the display screen 10 and the operation gesture of the OSD image 20 displayed for the first display position on the display screen 10 is sliding downward, the display position of the OSD image 20 may be switched from the upper right corner of the display screen 10 to the lower right corner of the display screen 10.

The problem of inconvenient operation when the user uses the OSD image 20 to perform relevant settings can be solved by quickly switching the display position of the OSD image 20 on the display screen 10 through gesture operation. For example, for a large-sized display device, the height of the display device is high, and if the OSD image 20 is fixedly displayed on the upper right corner of the display screen 10, it is difficult for a short user to perform related settings through the OSD image 20 displayed on the upper right corner of the display screen 10.

In the embodiment of the invention, after the OSD image is called, the display position of the OSD image on the display screen is quickly and conveniently changed by using the operation gesture, namely the display position of the OSD image on the display screen is changed from the first display position to the second display position, so that the problem of inconvenient operation when a user uses the OSD image to carry out relevant setting is solved, and the operation convenience of the user is improved.

Example two

Referring to fig. 8, a specific flowchart of an image display control method according to an embodiment of the present invention is shown, which specifically includes the following steps:

step 801, determining whether a gesture recognition trigger operation for the OSD image displayed at the first display position on the display screen is detected.

In the embodiment of the present invention, in order to avoid mistakenly recognizing the operation gesture of the user to switch the display position of the OSD image 20, it is necessary to determine in advance whether to turn on the gesture recognition function of the display device.

First, it is determined whether a gesture recognition trigger operation for the OSD image 20 displayed at the first display position on the display screen 10 is detected, and in particular, the gesture recognition trigger operation may be detected by a detection component in the display apparatus.

When the gesture recognition triggering operation of the OSD image 20 displayed for the first display position on the display screen 10 is detected, step 802 is executed, and when the gesture recognition triggering operation of the OSD image 20 displayed for the first display position on the display screen 10 is not detected, the present scheme is not executed until the gesture recognition triggering operation of the OSD image 20 displayed for the first display position on the display screen 10 is detected.

Specifically, step 801 includes sub-steps S11 and S12:

a substep S11, determining that a gesture recognition trigger operation for the OSD image displayed at the first display position on the display screen is detected when a duration in which the infrared light is not received by at least one infrared receiving unit is greater than or equal to a preset duration, in a plurality of infrared detection devices corresponding to the first display position of the OSD image;

in the sub-step S12, in the plurality of infrared detection devices corresponding to the first display position of the OSD image, when all the infrared receiving units receive the infrared light, or a time period during which any one or more of the infrared receiving units do not receive the infrared light is shorter than the preset time period, it is determined that the gesture recognition trigger operation for the OSD image displayed at the first display position on the display screen is not detected.

In the embodiment of the present invention, the detection assembly includes a plurality of infrared detection devices corresponding to the display position of each OSD image 20, and each infrared detection device includes an infrared transmitting unit and an infrared receiving unit that are oppositely disposed.

When the gesture recognition function of the display device needs to be turned on, a user may place a finger at a position of the OSD image 20 displayed at the first display position on the display screen 10, and then, in a plurality of infrared detection devices corresponding to the first display position of the OSD image 20, one or more infrared receiving units may not receive infrared light emitted by a corresponding infrared emitting unit, and when a duration in which the infrared receiving unit does not receive the infrared light is greater than or equal to a preset duration, it is determined that the gesture recognition trigger operation for the OSD image 20 displayed at the first display position on the display screen 10 is detected.

For example, if the first display position of the OSD image 20 on the display screen 10 is the lower right corner of the display screen 10, the infrared detection device corresponding to the first display position of the OSD image 20 includes: an infrared detection device composed of an infrared emission unit A17 and an infrared receiving unit B17, an infrared detection device composed of an infrared emission unit A18 and an infrared receiving unit B18, an infrared detection device composed of an infrared emission unit A19 and an infrared receiving unit B19, an infrared detection device composed of an infrared emission unit A27 and an infrared receiving unit B27, an infrared detection device composed of an infrared emission unit A28 and an infrared receiving unit B28, and an infrared detection device composed of an infrared emission unit A29 and an infrared receiving unit B29, if a position where a user's finger is placed is located on a horizontal line where the infrared emission unit A18 and the infrared receiving unit B18 are located and on a horizontal line where the infrared emission unit A28 and the infrared receiving unit B28 are located, both the infrared receiving unit B18 and the infrared receiving unit B28 cannot receive infrared signals, and if infrared receiving units B18 and B28 do not receive infrared light for more than or equal to 2 seconds, it is determined that the gesture recognition trigger operation for the OSD image 20 displayed for the first display position on the display screen 10 is detected.

When the user does not place a finger at the position of the OSD image 20 displayed at the first display position on the display screen 10, all the infrared receiving units in the plurality of infrared detecting devices corresponding to the first display position of the OSD image 20 receive the infrared light, and it is determined that the gesture recognition trigger operation for the OSD image 20 displayed at the first display position on the display screen 10 is not detected; or, if the time that the user places at the position of the OSD image 20 displayed at the first display position on the display screen 10 is short, in the plurality of infrared detection devices corresponding to the first display position of the OSD image 20, the duration that any one or more infrared receiving units do not receive infrared light is less than the preset duration, it is determined that the gesture recognition trigger operation for the OSD image 20 displayed at the first display position on the display screen 10 is not detected.

Step 802, when detecting a gesture recognition trigger operation for the OSD image displayed at the first display position on the display screen, turning on a gesture recognition function of the display device.

In the embodiment of the invention, when the gesture recognition triggering operation of the OSD image 20 displayed for the first display position on the display screen 10 is detected, the gesture recognition function of the display device is turned on to detect the gesture operation of the user through the detection component.

Step 803, blurring an OSD image displayed at a first display position on the display screen, and controlling the display screen to display a position change indication icon of the OSD image; the position change indication icon is used for indicating the moving direction corresponding to the operation gesture.

In the embodiment of the present invention, after the gesture recognition function of the display device is turned on, the OSD image 20 displayed at the first display position on the display screen 10 is blurred, that is, the transparency of the OSD image 20 displayed at the first display position on the display screen 10 is increased, and at the same time, the display screen 10 is controlled to display the position change indication icon of the OSD image 20, where the position change indication icon is used to indicate the moving direction corresponding to the operation gesture.

As shown in fig. 2 to 6, the position change indication icon may be an arrow, and the number and display direction of the arrows are determined by the first display position of the OSD image 20 on the display screen 10.

As shown in fig. 2, the first display position of the OSD image 20 on the display screen 10 is the upper left corner of the display screen 10, the number of the arrows is 3, the display direction of the first arrow faces the upper right corner of the display screen 10, the display direction of the second arrow faces the center position of the display screen 10, and the display direction of the third arrow faces the lower left corner of the display screen 10; as shown in fig. 3, the first display position of the OSD image 20 on the display screen 10 is the lower left corner of the display screen 10, the number of the arrows is 3, the display direction of the first arrow faces the upper left corner of the display screen 10, the display direction of the second arrow faces the center position of the display screen 10, and the display direction of the third arrow faces the lower right corner of the display screen 10; as shown in fig. 4, the first display position of the OSD image 20 on the display screen 10 is the upper right corner of the display screen 10, the number of the arrows is 3, the display direction of the first arrow faces the upper left corner of the display screen 10, the display direction of the second arrow faces the center position of the display screen 10, and the display direction of the third arrow faces the lower right corner of the display screen 10; as shown in fig. 5, the first display position of the OSD image 20 on the display screen 10 is the lower right corner of the display screen 10, the number of the arrows is 3, the display direction of the first arrow faces the upper right corner of the display screen 10, the display direction of the second arrow faces the center position of the display screen 10, and the display direction of the third arrow faces the lower left corner of the display screen 10; as shown in fig. 6, the first display position of the OSD image 20 on the display screen 10 is the center position of the display screen 10, the number of the arrows is 4, the display direction of the first arrow faces the upper left corner of the display screen 10, the display direction of the second arrow faces the upper right corner of the display screen 10, the display direction of the third arrow faces the lower right corner of the display screen 10, and the display direction of the fourth arrow faces the lower left corner of the display screen 10.

Step 804, in the plurality of infrared detection devices corresponding to the first display position of the OSD image, determining an operation gesture of the OSD image displayed for the first display position on the display screen according to the distribution position of each infrared receiving unit not receiving the infrared light and the time sequence of each infrared receiving unit not receiving the infrared light.

In the embodiment of the present invention, after the gesture recognition function of the OSD image and the turn-on display device is invoked, the operation gesture of the OSD image 20 displayed for the first display position on the display screen 10 is determined through the plurality of infrared detection devices corresponding to the first display position of the OSD image 20. Specifically, the operation gesture of the OSD image 20 displayed for the first display position on the display screen 10 is determined according to the distribution position of each infrared receiving unit that does not receive the infrared light and the time sequence of each infrared receiving unit that does not receive the infrared light.

For example, the first display position of the OSD image 20 on the display screen 10 is the lower right corner of the display screen 10, the initial position of the finger is located on the horizontal line where the infrared emitting unit a18 and the infrared receiving unit B18 are located, and the horizontal line where the infrared emitting unit a28 and the infrared receiving unit B28 are located, therefore, in the process of the user sliding the finger to the left, the infrared receiving unit B28 does not receive the infrared light first, then, the infrared receiving unit B27 does not receive the infrared light any more, and during the sliding of the finger, the infrared receiving unit B18 is in a state of not receiving the infrared light all the time, according to the distribution positions of the infrared receiving unit B28 and the infrared receiving unit B27 (the infrared receiving unit B27 is located at the left side of the infrared receiving unit B28), and the time sequence in which the infrared receiving unit B28 and the infrared receiving unit B27 do not receive the infrared light, the operation gesture of the OSD image 20 displayed for the first display position on the display screen 10 is determined to be leftward sliding; alternatively, the initial position of the finger is located at a horizontal line where the infrared transmitting unit A18 and the infrared receiving unit B18 are located, and the infrared transmitting unit a28 and the infrared receiving unit B28 are located on a horizontal line, so that, during the process of sliding the finger upward, the infrared receiving unit B18 does not receive the infrared light first, and then the infrared receiving unit B17 does not receive the infrared light, during the sliding of the finger, the infrared receiving unit B28 is always in a state of not receiving infrared light, according to the distribution positions of the infrared receiving unit B18 and the infrared receiving unit B17 (the infrared receiving unit B17 is located at the upper side of the infrared receiving unit B18), and the time sequence in which the infrared receiving unit B18 and the infrared receiving unit B17 do not receive the infrared light, the operation gesture of the OSD image 20 displayed for the first display position on the display screen 10 is determined to be a swipe up.

Step 805, determining a second display position of the OSD image after position change from the first display position on the display screen according to the operation gesture and the first display position of the OSD image on the display screen.

This step is similar to the step 102 in the first embodiment, and is not described herein again.

Step 806, performing format conversion on the OSD image and the display image to split the OSD image into N OSD sub-images with a specified format and split the display image into M display sub-images with the specified format.

In the embodiment of the present invention, as shown in fig. 9, after the SOC chip draws an OSD image, the OSD image is sent to the FPGA chip, the FPGA chip stores the OSD image in the storage module, and the pixel format of the OSD image is 1920 × 1080.

The storage capacity of the storage module is 4Gb, Row is equal to 15, Column is equal to 10, the bank in the storage module is divided into two parts, including banks 0 to 7, the OSD image is stored in the first address starting from { 15'd 0, 10'd 0} of any bank, and then the FPGA chip reads the OSD image from the storage module.

The Memory module may be a DDR4(Double data Rate SDRAM, Double data Rate dynamic random access Memory) actually, and is connected to the FPGA chip through an MIG (Memory Interface Generator) IP core, specifically, one end of the MIG IP core is connected to an Interface of the DDR4, and the other end of the MIG IP core is interconnected to an AXI (Advanced eXtensible Interface) of the FPGA chip, and based on the MIG IP core, the FPGA chip may store an OSD image in the DDR4, and accordingly, based on the MIG IP core, the FPGA chip may also read the OSD image from the DDR 4.

Because the interface transmission protocol between the FPGA chip and the timing controller requires that the pixel format of transmission is 480 × 4320, and the pixel format of the actual OSD image is 1920 × 1680, the format conversion of the OSD image is required, the OSD image is split into N OSD sub-images with the specified format, and correspondingly, the format conversion of the display image is also required, and the display image is split into M display sub-images with the specified format. Wherein M is a positive integer greater than N, and N is a positive integer greater than 1.

Specifically, M is equal to 16, N is equal to 4, and as shown in fig. 9, the format conversion is performed on the display image, the display image is split into 16 display sub-images with a specified format along the column direction, the pixel format of the display image is 7680 × 4320, and the specified format means that the number of pixels in the row direction and the column direction is 480 and 4320 respectively, that is, the pixel format of each display sub-image is 480 × 4320.

Correspondingly, format conversion is performed on the OSD image by splitting the OSD image into 4 parts along the column direction, wherein the pixel format of each part is 480 × 1080, and then, from line 1081 to line 4320, invalid data is filled in, for example, invalid data 0 is used for filling, so that 4 OSD sub-images with the pixel format of 480 × 4320 are obtained.

Step 807, determining a target display sub-image from the M display sub-images having the specified format according to the second display position; the target display sub-image comprises N display sub-images having the specified format.

In the embodiment of the invention, according to the second display position, N display sub-images with the specified format are selected from the M display sub-images with the specified format as target display sub-images.

For example, M is 16, N is 4, the display image includes 16 display sub-images with a pixel format of 480 × 4320, and from left to right, the display sub-image L1, the display sub-image L2, the display sub-image L3, the display sub-image L4, the display sub-image L5, the display sub-image L6, the display sub-image L7, the display sub-image L8, the display sub-image R1, the display sub-image R2, the display sub-image R3, the display sub-image R4, the display sub-image R5, the display sub-image R6, the display sub-image R7, and the display sub-image R8 are respectively, as shown in fig. 9, according to the second display position, from the 16 display sub-images with the designated format, 4 display sub-images with the designated format are selected as target display sub-images.

When the second display position of the OSD image 20 is the right side (including the upper right corner and the lower right corner) of the display screen 10, the rightmost 4 display sub-images are taken as target display sub-images, that is, the display sub-image R5, the display sub-image R6, the display sub-image R7, and the display sub-image R8 are taken as target display sub-images; when the second display position of the OSD image 20 is the left side (including the top left corner and the bottom left corner) of the display screen 10, the leftmost 4 display sub-images are the target display sub-images, that is, the display sub-image L1, the display sub-image L2, the display sub-image L3, and the display sub-image L4 are the target display sub-images; when the second display position of the OSD image 20 is the center position of the display screen 10, the middle 4 display sub-images are set as target display sub-images, that is, the display sub-image L7, the display sub-image L8, the display sub-image R1, and the display sub-image R2 are set as target display sub-images.

And 808, fusing the OSD sub-image and the target display sub-image according to the second display position to obtain a partially fused image.

In the embodiment of the invention, the OSD sub-image and the target display sub-image are fused according to the second display position to obtain a partial fused image.

Specifically, in the first case, step 808 includes sub-steps S21 to S24:

substep S21, when the second display position is located at the upper side of the display screen, performing effective line counting on the input time sequence corresponding to the target display sub-image to obtain a first count value;

sub-step S22, determining the OSD sub-image as a first effective image when the first count value is less than or equal to a first setting value;

sub-step S23, determining the target display sub-image as a second effective image when the first count value is greater than the first setting value;

and a substep S24, merging the first effective image and the second effective image to obtain the partially fused image.

When the second display position of the OSD image 20 is the upper side (including the upper left corner and the upper right corner) of the display screen 10, performing active line counting on the input timing sequence corresponding to the target display sub-image to obtain a first count value count 1; if the pixel formats of the target display sub-image and the OSD sub-image are 480 × 4320, the first setting value is 1080, when the first count value count1 is less than or equal to 1080, the OSD sub-image is determined to be the first effective image, when the first count value count1 is greater than 1080, the target display sub-image is determined to be the second effective image, and the first effective image and the second effective image are merged to obtain a partially fused image.

Since the OSD subimages are invalid data from line 1081 to line 4320, when the OSD subimages are merged with the target display subimages, the target display subimages are used as valid images from line 1081, which does not affect the integrity of the OSD subimages, and the OSD images can be completely displayed when the target merged image is displayed subsequently.

Specifically, in the second case, step 808 includes sub-steps S25 to S28:

substep S25, when the second display position is located at the lower side of the display screen, performing effective line counting on the input time sequence corresponding to the target display sub-image to obtain a second count value;

a sub-step S26 of determining the target display sub-image as a third effective image when the second count value is less than or equal to a second set value;

sub-step S27, determining the OSD sub-image as a fourth effective image when the second count value is greater than the second setting value;

and a substep S28, merging the third effective image and the fourth effective image to obtain the partially fused image.

When the second display position of the OSD image 20 is the lower side (including the lower left corner and the lower right corner) of the display screen 10, performing active line counting on the input timing sequence corresponding to the target display sub-image to obtain a second count value count 2; if the pixel formats of the target display sub-image and the OSD sub-image are 480 × 4320, the second setting value is 3240, when the second count value count2 is less than or equal to 3240, the target display sub-image is determined to be the third effective image, when the second count value count2 is greater than 3240, the OSD sub-image is determined to be the fourth effective image, and the third effective image and the fourth effective image are merged to obtain a partial fusion image. The fusion mode does not influence the integrity of the OSD sub-images, and the OSD images can be completely displayed when the target fusion images are displayed subsequently.

In a third case, when the second display position is located at the center of the display screen, performing effective line counting on the input time sequence corresponding to the target display sub-image to obtain a third count value; and when the third count value is less than or equal to a third set value, determining the target display sub-image as a fifth effective image, when the third count value is greater than the third set value and less than or equal to a fourth set value, determining the OSD sub-image as a sixth effective image, when the third count value is greater than the fourth set value, determining the target display sub-image as a seventh effective image, and merging the fifth effective image, the sixth effective image and the seventh effective image to obtain a partial fusion image.

If the pixel format of the target display sub-image and the OSD sub-image is 480 × 4320, the third setting value is 1620, and the fourth setting value is 2700.

And step 809, fusing the partial fusion image with the display sub-images in the display image except the target display sub-image to obtain the target fusion image.

In the embodiment of the present invention, as shown in fig. 9, the display sub-images in the display image except for the target display sub-image are 12 display sub-images, and the target fusion image is obtained by merging the partial fusion image and the remaining 12 display sub-images.

Step 810, controlling the display screen to display the target fusion image.

This step is similar to the step 104 in the first embodiment, and is not described herein again.

In the embodiment of the invention, after the OSD image is called, the gesture recognition function is started according to the gesture recognition triggering operation to avoid the switching of the display position of the OSD image by the misoperation of a user, then the indication icon is changed at the position of the OSD image displayed on the display screen to indicate the operation gesture of the user, and then the display position of the OSD image on the display screen is quickly and conveniently changed by using the operation gesture, namely the display position of the OSD image on the display screen is changed from the first display position to the second display position, so that the problem of inconvenient operation when the user uses the OSD image to carry out related setting is solved, and the operation convenience of the user is improved.

EXAMPLE III

Referring to fig. 10, there is shown a block diagram of the configuration of an image display control apparatus according to an embodiment of the present invention.

The image display control apparatus 1000 is applied to a display apparatus including a display screen 10 and a detection member, and the image display control apparatus 1000 includes:

an operation gesture determination module 1001 configured to determine an operation gesture for the OSD image displayed for the first display position on the display screen according to a detection result of the detection component;

a second display position determining module 1002, configured to determine, according to the operation gesture and a first display position of the OSD image on the display screen, a second display position of the OSD image after a position change from the first display position on the display screen;

an image fusion module 1003 configured to fuse the OSD image and the display image according to the second display position to obtain a target fusion image;

an image display module 1004 configured to control the display screen to display the target fusion image.

Optionally, the detection assembly includes a plurality of infrared detection devices corresponding to the display position of each OSD image, each infrared detection device includes an infrared emission unit and an infrared receiving unit which are oppositely disposed, the infrared emission unit is configured to emit infrared light, and the infrared receiving unit is configured to receive the infrared light.

Optionally, the operation gesture determining module 1001 includes:

an operation gesture determination submodule configured to determine, among the plurality of infrared detection devices corresponding to the first display position of the OSD image, an operation gesture for the OSD image displayed for the first display position on the display screen according to a distribution position of each infrared receiving unit that does not receive the infrared light and a time sequence in which each infrared receiving unit does not receive the infrared light.

Optionally, the image display control apparatus 1000 further includes:

a gesture recognition trigger operation determination module configured to determine whether a gesture recognition trigger operation for an OSD image displayed for a first display position on the display screen is detected;

a gesture recognition function starting module configured to start a gesture recognition function of the display device when a gesture recognition trigger operation for the OSD image displayed at the first display position on the display screen is detected.

Optionally, the gesture recognition triggering operation determining module includes:

a gesture recognition trigger operation first determination sub-module configured to determine that a gesture recognition trigger operation of the OSD image displayed for the first display position on the display screen is detected when a duration in which the infrared light is not received by at least one infrared receiving unit is greater than or equal to a preset duration, in a plurality of infrared detection devices corresponding to the first display position of the OSD image;

and a gesture recognition triggering operation second determining sub-module, configured to determine, in the plurality of infrared detection devices corresponding to the first display position of the OSD image, that the gesture recognition triggering operation for the OSD image displayed at the first display position on the display screen is not detected when all the infrared receiving units receive the infrared light, or a time period during which any one or more of the infrared receiving units do not receive the infrared light is shorter than the preset time period.

Optionally, the image display control apparatus 1000 further includes:

a position change indication icon display control module configured to perform blurring processing on an OSD image displayed at a first display position on the display screen and control the display screen to display a position change indication icon of the OSD image; the position change indication icon is used for indicating the moving direction corresponding to the operation gesture.

Optionally, the image fusion module 1003 includes:

a format conversion sub-module configured to format convert the OSD image and the display image to split the OSD image into N OSD sub-images having a specified format and split the display image into M display sub-images having the specified format;

a target display sub-image determination sub-module configured to determine a target display sub-image from the M display sub-images having the specified format according to the second display position; the target display sub-image comprises N display sub-images having the specified format;

the first image fusion submodule is configured to fuse the OSD sub-image and the target display sub-image according to the second display position to obtain a partially fused image;

the second image fusion submodule is configured to fuse the partial fusion image with a display sub-image in the display image except the target display sub-image to obtain a target fusion image;

wherein M is a positive integer greater than N, and N is a positive integer greater than 1.

Optionally, the first image fusion submodule includes:

the first counting unit is configured to count effective lines of input time sequences corresponding to the target display sub-images to obtain a first counting value when the second display position is located at the upper side of the display screen;

a first effective image determining unit configured to determine the OSD sub-image as a first effective image when the first count value is less than or equal to a first set value;

a second effective image determination unit configured to determine the target display sub-image as a second effective image when the first count value is greater than the first setting value;

and the image first fusion unit is configured to merge the first effective image and the second effective image to obtain the partially fused image.

Optionally, the first image fusion submodule includes:

the second counting unit is configured to count the effective lines of the input time sequence corresponding to the target display sub-image to obtain a second counting value when the second display position is positioned at the lower side of the display screen;

a third effective image determining unit configured to determine the target display sub-image as a third effective image when the second count value is less than or equal to a second set value;

a fourth effective image determining unit configured to determine the OSD sub-image as a fourth effective image when the second count value is greater than the second setting value;

and the second image fusion unit is configured to merge the third effective image and the fourth effective image to obtain the partially fused image.

In the embodiment of the invention, after the OSD image is called, the display position of the OSD image on the display screen is quickly and conveniently changed by using the operation gesture, namely the display position of the OSD image on the display screen is changed from the first display position to the second display position, so that the problem of inconvenient operation when a user uses the OSD image to carry out relevant setting is solved, and the operation convenience of the user is improved.

Example four

The embodiment of the invention further provides a display device, which comprises a display screen 10, a detection assembly and the image display control device 1000, wherein the image display control device 1000 is specifically arranged in the FPGA chip.

Certainly, the Display device further includes a power module, an SOC chip, a storage module, a timing controller, and a driving chip, the Display screen may actually be a Display panel, the Display panel may be an OLED (Organic Light-Emitting Diode) Display panel, and may also be an LCD (Liquid Crystal Display) Display panel, and when the Display panel is an LCD Display panel, the Display device further includes a backlight module.

In practical applications, the display device may be: any product or component with a display function, such as a mobile phone, a tablet computer, a display, a notebook computer, a navigator and the like.

In the embodiment of the invention, after the OSD image is called, the display position of the OSD image on the display screen is quickly and conveniently changed by using the operation gesture, namely the display position of the OSD image on the display screen is changed from the first display position to the second display position, so that the problem of inconvenient operation when a user uses the OSD image to carry out relevant setting is solved, and the operation convenience of the user is improved.

While, for purposes of simplicity of explanation, the foregoing method embodiments have been described as a series of acts or combination of acts, it will be appreciated by those skilled in the art that the present invention is not limited by the illustrated ordering of acts, as some steps may occur in other orders or concurrently with other steps in accordance with the invention. Further, those skilled in the art should also appreciate that the embodiments described in the specification are preferred embodiments and that the acts and modules referred to are not necessarily required by the invention.

The embodiments in the present specification are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other.

Finally, it should also be noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

The image display control method, the image display control device and the display device provided by the invention are described in detail, specific examples are applied in the text to explain the principle and the implementation of the invention, and the description of the above embodiments is only used to help understanding the method and the core idea of the invention; meanwhile, for a person skilled in the art, according to the idea of the present invention, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present invention.

Claims (10)

1. An image display control method applied to a display apparatus including a display screen and a detection component, the method comprising:

according to the detection result of the detection component, determining an operation gesture of an OSD image displayed at a first display position on the display screen;

determining a second display position of the OSD image after the position of the OSD image on the display screen is changed from the first display position according to the operation gesture and the first display position of the OSD image on the display screen;

fusing the OSD image and the display image on the display screen according to the second display position to obtain a target fused image;

controlling the display screen to display the target fusion image;

the step of fusing the OSD image and the display image according to the second display position to obtain a target fused image includes:

performing format conversion on the OSD image and the display image so as to split and fill the OSD image into N OSD sub-images with a specified format and split the display image into M display sub-images with the specified format; wherein the format conversion refers to pixel format conversion;

determining a target display sub-image from the M display sub-images with the specified format according to the second display position; the target display sub-image comprises N display sub-images having the specified format;

fusing the OSD subimage and the target display subimage according to the second display position to obtain a partially fused image;

fusing the partial fusion image with display sub-images in the display image except the target display sub-image to obtain a target fusion image;

wherein M is a positive integer greater than N, and N is a positive integer greater than 1.

2. The method of claim 1, wherein the detection assembly comprises a plurality of infrared detection devices corresponding to a display position of each of the OSD images, each of the infrared detection devices comprising an infrared emission unit and an infrared reception unit disposed opposite to each other, the infrared emission unit being configured to emit infrared light, and the infrared reception unit being configured to receive the infrared light.

3. The method according to claim 2, wherein the step of determining an operation gesture of the OSD image displayed for the first display position on the display screen according to the detection result of the detection component comprises:

and in a plurality of infrared detection devices corresponding to the first display position of the OSD image, determining an operation gesture of the OSD image displayed aiming at the first display position on the display screen according to the distribution position of each infrared receiving unit which does not receive the infrared light and the time sequence of the infrared receiving units which do not receive the infrared light.

4. The method according to claim 2, wherein before the step of determining an operation gesture of the OSD image displayed for the first display position on the display screen according to the detection result of the detection component, further comprising:

determining whether a gesture recognition trigger operation for an OSD image displayed at a first display position on the display screen is detected;

and when detecting the gesture recognition triggering operation aiming at the OSD image displayed at the first display position on the display screen, starting the gesture recognition function of the display device.

5. The method of claim 4, wherein the step of determining whether a gesture recognition trigger operation for the OSD image displayed at the first display position on the display screen is detected comprises:

in a plurality of infrared detection devices corresponding to a first display position of the OSD image, when the duration that at least one infrared receiving unit does not receive the infrared light is longer than or equal to a preset duration, determining that a gesture recognition trigger operation aiming at the OSD image displayed at the first display position on the display screen is detected;

in a plurality of infrared detection devices corresponding to the first display position of the OSD image, when all the infrared receiving units receive the infrared light, or the duration that any one or more infrared receiving units do not receive the infrared light is shorter than the preset duration, it is determined that the gesture recognition trigger operation for the OSD image displayed at the first display position on the display screen is not detected.

6. The method according to claim 4, further comprising, after the step of turning on a gesture recognition function of the display device when the gesture recognition trigger operation for the OSD image displayed at the first display position on the display screen is detected:

blurring an OSD image displayed at a first display position on the display screen, and controlling the display screen to display a position change indication icon of the OSD image; the position change indication icon is used for indicating the moving direction corresponding to the operation gesture.

7. The method according to claim 1, wherein the step of fusing the OSD sub-image and the target display sub-image according to the second display position to obtain a partially fused image comprises:

when the second display position is located on the upper side of the display screen, performing effective line counting on the input time sequence corresponding to the target display sub-image to obtain a first counting value;

when the first counting value is smaller than or equal to a first set value, determining the OSD sub-image as a first effective image;

when the first counting value is larger than the first set value, determining the target display sub-image as a second effective image;

and merging the first effective image and the second effective image to obtain the partial fusion image.

8. The method according to claim 1, wherein the step of fusing the OSD sub-image and the target display sub-image according to the second display position to obtain a partially fused image comprises:

when the second display position is positioned at the lower side of the display screen, performing effective line counting on the input time sequence corresponding to the target display sub-image to obtain a second counting value;

when the second counting value is smaller than or equal to a second set value, determining the target display sub-image as a third effective image;

when the second count value is greater than the second set value, determining the OSD sub-image as a fourth effective image;

and merging the third effective image and the fourth effective image to obtain the partial fusion image.

9. An image display control apparatus applied to a display apparatus including a display screen and a detection unit, the image display control apparatus comprising:

an operation gesture determination module configured to determine an operation gesture for an OSD image displayed for a first display position on the display screen according to a detection result of the detection component;

a second display position determination module configured to determine, according to the operation gesture and a first display position of the OSD image on the display screen, a second display position of the OSD image after a position change from the first display position on the display screen;

the image fusion module is configured to fuse the OSD image and the display image on the display screen according to the second display position to obtain a target fusion image;

an image display module configured to control the display screen to display the target fusion image;

the image fusion module is specifically configured to:

performing format conversion on the OSD image and the display image so as to split and fill the OSD image into N OSD sub-images with a specified format and split the display image into M display sub-images with the specified format; the format conversion refers to pixel format conversion;

determining a target display sub-image from the M display sub-images with the specified format according to the second display position; the target display sub-image comprises N display sub-images having the specified format;

fusing the OSD subimage and the target display subimage according to the second display position to obtain a partially fused image;

fusing the partial fusion image with display sub-images in the display image except the target display sub-image to obtain a target fusion image;

wherein M is a positive integer greater than N, and N is a positive integer greater than 1.

10. A display device comprising a display screen, a detection component and the image display control device according to claim 9.

Images