Device, method and carrier for controlling orientation of image

FIELD: technology for controlling orientation of image.

SUBSTANCE: orientation mode detector measures angles of rotation of display panel in several directions and determines orientation mode for source image data based on measured rotation angles. System memory stores orientation parameters in accordance to a set of image orientation modes. System controller originally receives information, pointing out orientation mode, from orientation mode detector, and extracts orientation parameters corresponding to received information from system memory. Finally, driver alters orientation of original image data in accordance to extracted orientation parameters.

EFFECT: optimal automatic orientation of image depending on turn of panel of display in several directions.

3 cl, 13 dwg

 

The technical field to which the invention relates.

The present invention relates to a display system and, more particularly, to a device, method, and medium for controlling the orientation of the image. Although the present invention is suitable for many applications, it is particularly suitable for use in a display system having a display panel that can rotate in several directions.

The level of technology

In General, the display system performs many functions simply provide users with images of all types, including graphics, images, characters, etc. in Addition, the display system displays the image in landscape format. More specifically, in landscape format image is displayed in such a way that the longitudinal dimension greater than the vertical size. However, despite the convenience for users, depending on computer applications such display formats (i.e. landscape format) can be inconvenient and disadvantageous. For example, a landscape format may cause discomfort to users who need to view the document image having a greater vertical dimension and a smaller longitudinal dimension that can also lead to the emergence of a large empty space on each side played the image has been created. In this case, the user would prefer to consider the image in portrait format, where the vertical dimension greater than the longitudinal dimension.

Therefore, to meet the needs of the user to which you want to view the image in both landscape and portrait format, designed display system performing image rotation in the direction desired by the user. Display system with rotating images should include the display panel, which can be rotated horizontally or vertically, as well as software and hardware, which can change the direction of the displayed image, depending on the rotation of the display panel.

In the standard system display to rotate images when the user wants to rotate the display panel 90 degrees (90°)to view the image in portrait format, the user uses a remote controller or a function key on the display panel, to set the orientation of the display image corresponding to the mode rotate 90°. Accordingly, the image is rotated 90 degrees (90°) by the software and hardware associated with image rotation and, thus, appears in the book is ornate. On the contrary, when the user wants to once again turn rotated by 90 degrees (90°) the image to view the picture in landscape format, the user uses a remote controller or a function key on the display panel, to set the orientation of the display image corresponding to the rotation mode at 0°. Accordingly, the image is rotated back to its original position by means of software and hardware associated with image rotation, and thus is displayed in landscape format.

However, a disadvantage of the standard display systems is that the user must set the direction of the image display each time you turn the display panel. In addition, if the user is not able to fix the right angle, then the user must use repeat mode rotate the image a few times before you will be able to view the image in the desired manner. In addition, the display panel of the existing system display can be rotated in only one direction and, accordingly, the image is rotated only in one direction. Therefore, it is necessary to develop a display device and method, which allows you to rotate the image a few e.g. the also.

Summary of the invention

Thus, the present invention relates to a device, method, and medium for controlling image orientation, which essentially eliminates one or more problems associated with the deficiencies and limitations in the existing area.

The aim of the present invention is to provide a device, method and media to control the orientation of the image, which is able to provide optimal automatic image orientation depending on the rotation of the display panel in several directions.

Additional advantages, objectives and features of the invention will be in part set forth in the following description and in part will become apparent to specialists of ordinary skill in this field after studying the following description or may be learned from practice of application of the invention. The objectives and other advantages of the present invention may be realized and attained by the device, which is disclosed in detail in the description and claims and the attached drawings.

To achieve these and other advantages and in accordance with the purpose of the invention as described in detail below, the method of controlling the orientation of the image data in a display system having a display panel, includes the steps the distribution of the orientation mode for the source of the image data depending on the rotation angle of the display panel in several directions and determine the orientation parameters, match the orientation mode. The method further includes the steps of changing the orientation of the original image data according to the extracted orientation parameters, storing in memory the image data by changing the orientation and displaying the stored image data on the display screen.

In another aspect of the present invention, the control device orientation data of the image contains a display panel that can rotate in several directions, and the detector orientation mode, configured to measure the rotation angle of the display panel in several directions and determine the orientation of the original image data on the basis of the measured angles of rotation. Further, the device comprises a system memory configured to save the orientation parameters corresponding to the multiple modes of orientation image, and a system controller configured to receive information indicating that a specific mode of orientation of the image from the detector orientation mode and extract the orientation parameters corresponding to the received information. Further, the device includes a driver configured to change the orientation of the source image data according to the extracted orientation parameters, where the image data with the changed orientation are stored in the system memory and displayed on the display screen.

Detector orientation mode includes at least one sensor, configured to measure the rotation angle of the display panel in several directions, the display controller, configured to determine the orientation mode for the original image data based on the measured rotation angles, and the memory of the display, configured to store information indicating a specific mode orientation, and the display controller sends an acknowledgement to the system controller when a request is received to access the display memory.

In another aspect of the present invention machine-readable medium stores a program to identify the mode of orientation of the original image data in the display system. The program, when executed by a processor, causes the processor to perform the following steps: (a) the user rotates the display panel at least in one direction of the first or the second; (b) the determination turns on whether the display panel in the first direction; and (C) if step (b) is properly identified, determining whether the first rotation angle of the display panel in the first direction 90 degrees. Next, the program prompts the processor to perform the following steps: (d) if step (C) is properly identified, determining turned panel displease second direction; (e) if step (d) is properly identified, determining whether a second rotation angle of the display panel in a second direction 180 degrees; (f) if step (e) is defined correctly saving mode orientation of 270 degrees in the memory; (g) determining whether received from the controller orientation of the image access request to the memory; and (h) if the request has been made, send the acknowledgment to the controller, the orientation of the image to allow access to memory.

It should be understood that the above General description and the following detailed description of the present invention are exemplary and explanatory and are intended for further explanation of the claimed invention.

Brief description of drawings

The accompanying drawings are attached for better understanding of the invention and forming part of this application, illustrate embodiments of the present invention and together with the description serve to explain the principles of the present invention.

Figure 1 shows the block diagram of the device for controlling the orientation of the image according to the present invention.

Figure 2 and 3 shows a flowchart illustrating the process steps in accordance with the method of controlling the orientation of the image according to the present invention.

On figa-4C are examples of panel and display according to the present invention.

On figa-5C shows the display panel depending on the rotation angle of the display panel.

On figa and 6B shows the switch determine the conductivity.

7 shows an example of a sensor used in the device to control the orientation of the image according to the present invention.

On Fig presents examples of different modes of orientation of the image according to the present invention.

Detailed description of the invention

Below are discussed in detail preferred embodiments of the present invention, which is illustrated by the accompanying drawings. Where possible, to designate identical or similar parts in all the drawings use the same reference number.

The purpose of the present invention is to automatically determine the rotation angle of the display panel, which can be rotated in several directions, for example in the first rotation direction and the second direction of rotation, and optimally display the image, automatically controlling the orientation of the image depending on certain angles. Figure 1 shows a block diagram of a device for controlling the orientation of the image according to the present invention. And figure 2 and 3 shows a flowchart depicting the process steps in accordance with the method of administration is of the orientation of the image according to the present invention. With reference to figure 1, the device for controlling the orientation of the image in accordance with the present invention includes a display panel 1, the detector orientation mode 2 and the controller of the image orientation 3. When the display panel can be turned in several directions.

On figa-4C shows the different types of display panel 1, which can be rotated in several directions. More specifically, figa see panel 1 display back on FIGU - panel 1 display on the left and on figs - panel 1 display in the front. In accordance with figa-4C, the display panel 1 is able to rotate in the first rotation direction and in a second direction of rotation. More specifically, the display panel is able to rotate around an axis perpendicular to the display panel 1 (the first direction), as shown in figa and 4C. On the other hand, the display panel is also able to rotate around the horizontal axis (second direction), as shown in figa and 4B.

On figa-5C shows the different orientation of the display panel 1 according to the present invention. On figa shows the orientation of the display panel 1, in which the panel 1 is rotated 180 degrees in the second direction of rotation. Besides, figv shows the orientation of the display panel 1, in which the panel 1 is initially rotated 90 gra the mustache in the first direction, and then rotated 180 degrees in the second direction. And figs shows the orientation of the display panel 1, in which the panel 1 is rotated 180 degrees in the first direction.

Refer again to figure 1, where the detector 2 orientation mode includes a sensor 11, the controller 12 of the display and the memory 13 of the display. The sensor 11 of the detector orientation mode 2 measures the rotation angle of the display panel 1 in several directions, and it can be used any of a wide range of sensors, such as a gyroscopic sensor, a sensor with metal housing, the switch determining the conductivity switch with a mechanical conversion, etc. In the present invention is applied to the sensor using the switch determine the conductivity.

On figa and 6B shows the switch determine the conductivity. More specifically, figa illustrates the state when the electric current flows, and figv illustrates the state when the electric current is turned off. In accordance with figa electric current flows, since the conductive ball 20 comes into contact with the contact point 22 of the terminal 21. On the contrary, the electric current is off when the conductive ball 20 does not contact with the contact point 22 of the terminal 21, as shown in figv.

7 shows an example of a sensor used in the device to control the orientation is zobrazenie according to the present invention. According to Fig.7, the contact point 22 is located on each side of the sensor and the conductive ball 20 moves along the inclined surface of the sensor. As the conductive ball 20 moves along the inclined surface of the sensor, the contact point 22 in contact with the conductive ball 20 is changed. Moreover, the electric current on each pin 22 can either take place or be disabled due to the conducting ball 20, thus changing the flow of electric current. Therefore, since the electric current is changed in accordance with the tilt sensor, the user can measure the electric current sensor for detecting the angle of inclination.

More specifically, when the sensor shown in Fig.7, is attached to the display panel, the user can measure the rotation angle of the display panel. In some cases, the user can place the light emitting diode 23 around each contact point 22 of the sensor to check for leaks or not the electric current through each contact point 22. The user can also increase the number of contact points 22 for a more accurate measurement of the rotation angle.

Alternatively, the present invention may also include a first sensor detecting rotation mode of the first direction, and a second sensor measuring the angle of rotation of the second mode is upravleniya. In this case, each sensor is able to detect the rotation angle more accurately, to determine the angle of rotation for the appropriate mode.

In addition, the memory 13 of the display shown in figure 1, stores the measured angles of rotation of the cover 1 of the display. Moreover, the controller 12 determines the display mode orientation for the original image data on the basis of the measured angles of rotation and stores that a specific mode of orientation in the memory 13 of the display. Then, when the controller 3 orientation image sends to the controller 12 of the display request to access the memory 13 of the display to obtain information about the orientation mode, the controller 12 of the display sends an acknowledgement to the controller 3 of the orientation of the image to allow access. The orientation mode determined by the controller 12 of the display is one of the following: 0, 90, 180 and 270 degrees, and the information indicating the orientation mode, stored in the memory 13 of the display.

In addition, the controller 3 orientation image includes a system memory 14, the system controller 15 and the driver 16. In the system memory 14 stores the orientation parameters corresponding to the multiple modes of orientation. Also, the system controller 15 receives the information about the orientation mode for the source of the image data defined by the detector 2 orientation modes, accessing memory 13 of the display. Then he izvlekaet the parameters orientation, the corresponding received information about the orientation mode. And the extracted orientation parameters are passed to the driver 16. Transferred to the driver 16, the orientation parameters can consist of information about the starting position of the image, position the end of the image and the scanning direction, which correspond to the information about the orientation mode. The orientation parameters of the image may vary depending on the information about the orientation mode of the image stored in the memory 14 of the system. In accordance with the present invention the orientation mode image includes first to eighth modes of orientation. Therefore, each mode the orientation of the image has its own orientation parameters of the image.

On Fig shows examples of different modes of orientation of the image according to the present invention. Referring to Fig, the present invention mainly includes a normal mode and a mirror mode, where normal include first to fourth modes of orientation to the mirror - the fifth to eighth modes of orientation. More specifically, the first mode of orientation is the original image, the second orientation mode - the image of the first mode orientation, rotated 90° clockwise, the third mode of orientation is the image of the first mode orientation, rotated 180° clockwise is the increase, and the fourth orientation mode is the image of the first orientation mode, rotated 270° clockwise. On the other hand, the fifth mode orientation is a mirror reflection of the original image, the sixth mode of orientation is the image of the fifth mode orientation, rotated 90° clockwise, the seventh mode of orientation is the image of the fifth mode orientation, rotated 180° clockwise, and the eighth mode of orientation is the image of the fifth mode orientation, rotated 270° clockwise. Also, the driver 16 changes the orientation of the original image data in accordance with the extracted data of the orientation of the image.

Now will be described the method of controlling the orientation of the image according to the present invention. With reference to figure 2 and 3, after the display panel 1 is rotated, at least in one of several directions, the controller 12 of the display determines turned the display panel 1 in the first direction of rotation based on the rotation angle measured by the sensor 11 (S101). If the display panel 1 is rotated in the first direction, the controller 12 of the display determines whether the rotation angle of the display panel in the first direction 90° (S102).

Then, if the angle of rotation in the first direction is 90°, the controller 12 of the display determined by the t, turned the display panel 1 in the second direction of rotation (S103). If the display panel 1 is rotated in the second direction, the controller 12 of the display determines is whether the rotation angle of the display panel 1 in the second direction 180° (S104). After that, if the angle of rotation in the second direction is 180°the controller 12 of the display preserves the orientation mode of the image 270° in memory 13 of the display (S105).

However, if the controller 12 of the display determines in step S101 that the display panel 1 is not rotated in the first direction, the controller 12 of the display determines turned the display panel 1 in the second direction (S106). And, if the display panel 1 is rotated in the second direction, the controller 12 of the display determines whether the rotation angle of the display panel 1 in the second direction 180° (S107). After that, if the angle of rotation in the second direction is 180°the controller 12 of the display preserves the orientation mode image 180° in memory 13 of the display (S108). On the other hand, at the step S106, if the display panel 1 is not rotated in the second direction, the controller 12 of the display mode saves the image orientation 0° in memory 13 of the display (S109).

In addition, at the step S102, if the angle of rotation in the first direction is not equal to 90°, the controller 12 of the display determines whether the rotation angle of the display panel 1 in the first direction 180° (S107). If the angle of rotation in the first direction is 180° the controller 12 of the display preserves the orientation mode image 180° in display memory (S108). However, if the angle of rotation in the first direction is not equal to 180°, the controller 12 of the display mode saves the image orientation 0° in memory 13 of the display (S109).

After the orientation of the image stored in the memory 13 of the display at step S110, S105, S108 or S109, the controller 12 of the display determines whether the received request from the system controller 15 to access the memory 13 of the display (S111). If such a request is made, the controller 12 of the display allows access to the memory 13 of the display, transmitting an acknowledgement to the system controller 15 (S112 (). However, if the query is no, the controller 12 of the display repeats the steps from S101.

The system controller 15 of the controller 3 of the orientation of the image periodically sends a request to the controller 12 of the display to obtain information about the orientation mode of the image stored in the memory 13 of the display. Then it reads information from the memory 13 of the display when it receives permission from the controller 12 of the display (S113). After that, the system controller 15 determines whether the received information to the mirror mode (S114). If the information does not correspond to the mirror mode, the system controller determines whether the information received in any orientation modes one through four (S115-S118). C is the, if determined that the received information relates to one of the modes of orientation of the first to fourth, the system controller 15 retrieves from the system memory 14, the data about the orientation of the image corresponding to the orientation mode in accordance with the received information (S123). However, if it is determined that the received information does not match any of the modes of orientation of the first to fourth, the process control orientation of the image is terminated.

Alternatively, if the information corresponds to the mirror mode, the system controller determines whether the received information to any orientation modes from the fifth to the eighth (S119-S122). Then, if the received information matches any of the modes of orientation from the fifth to the eighth, the system controller 15 retrieves from the system memory 14, the data about the orientation of the image corresponding to the orientation mode, which specified the received information (S123). However, if the received information does not match any of the modes of orientation from the fifth to the eighth, the process control orientation of the image is terminated. In addition, the driver 16 changes the orientation of the original image data in accordance with the extracted data about the orientation of the image and saves the changed orientation of the image the Oia in system memory (S124). In conclusion, the system controller 15 displays the saved image data on the display panel 1 (S125).

As discussed above, the present invention allows to automatically measure the rotation angle of the display panel, which can be rotated in several directions, and may allow the optimal orientation of the image based on the measured angle. Although the present invention is suitable for a wide scope of applications, it is also anticipated that the present invention covers the modifications and variations of this invention, if they are within the attached claims and their equivalents. For example, the present invention can be used in conjunction with any computer software, firmware and hardware. As a preliminary stage in the manufacture of the device in accordance with the present invention or the execution of the method in accordance with the present invention a computer program (or software, or firmware), in accordance with the present invention, is usually saved at least one machine-readable memory device, for example, such as a semiconductor memory device, including a fixed (or hard) drive, diskette, optical disk, magneto the tape, permanent memory (ROM), programmable permanent memory (EPROM), etc. and the products are made using the same media.

The product is made, including a computer program, is used by direct data processing program from the memory device by copying the program from the memory device to another memory device, such as a hard disk, storage device, random access (NVR) and so on, or by transfer of the program over the network for remote processing. The method in accordance with the present invention is implemented by the processing program contained in the corresponding standard computer hardware means, thereby combining at least one machine-readable memory device containing the program in accordance with the present invention. A device that implements aspects of the present invention may be at least one computer and system memory containing a computer program, encoded in accordance with the present invention, or having access to it over the network.

Device, method and medium for controlling the orientation of the image according to the present invention automatically detects the rotation angle of the display panel, thereby allowing the user is Yu to avoid inconvenience associated with the return to the original position orientation of the image each time you view the image. Also, since the orientation of the image is optimally set in accordance with the measured angle of rotation, the user sees a large part of the image. Finally, as the control of the orientation of the image is carried out in accordance with the first mode, turning the display panel either clockwise or counterclockwise relative to the Central axis of the display panel, and in accordance with the second mode, turning the display panel counterclockwise relative to the horizontal axis or the vertical axis of the display panel, the user can view a desired image more convenient way.

For qualified specialists will be apparent that the present invention can have various modifications and variations without changing the essence of the invention. Thus, it is understood that the present invention covers the modifications and variations of this invention provided that they are within the points of the attached claims and their equivalents.

1. The method of controlling the orientation of the image data in a display system having a display panel, comprising determining the orientation mode for the original image data is tion on the basis of the rotation of the display panel at least around two axes; removing the orientation parameters corresponding to a particular orientation mode; changing the orientation of the source image data according to the extracted orientation parameters and save the modified orientation of the image data in the first memory; displaying the stored image data on the display screen.

2. The method according to claim 1, characterized in that the determination of the orientation mode for the original image data includes (a) the user rotates the display panel at least in one direction of the first or the second; (b) determining, turned the display panel in the first direction; (c) when the result of determination at the step (b) is correct, determining whether the first rotation angle of the display panel in the first direction 90°; (d) when the result of determination at step (C) is correct, the definition turned the display panel in the second direction; (e) when the result of determination at step (d) is correct, determining whether a second rotation angle of the display panel in the second direction 180°; (f) when the result of determination at step (e) is correct, saving mode, the orientation of 270 degrees in the second memory.

3. The method according to claim 2, characterized in that the determination of the orientation mode for the source image data further includes (g) determining whether the received access request to the second memory the tee from the controller orientation image; (h) when a request is received, transmitting an acknowledgment to the controller, the orientation of the image to allow access to the second memory.

4. The method according to claim 2, characterized in that the first direction around the axis perpendicular to the display panel.

5. The method according to claim 4, characterized in that the second direction around the horizontal axis.

6. The method according to claim 2, characterized in that the determination of the orientation mode for the source image data further includes: (i) when the result of determination at the step (b) is incorrect determination, turned the display panel in the second direction; (j) when the result of determination at step (i) is correct, determining whether the second rotation angle 180°; (k) when the result of determination at step (j) is the right saving mode orientation 180° in the second memory.

7. The method according to claim 6, characterized in that the determination of the orientation mode for the source image data further includes: (l) when the result of determination at step (i) is incorrect saving mode orientation 0° in the second memory.

8. The method according to claim 6, characterized in that the determination of the orientation mode for the source image data further includes: (m) when the result of determination at step (j) is incorrect saving mode orientation 0° in the second memory.

9. The method according to claim 2, ex is different, however, the determination of the orientation mode for the source image data further includes:

(n) when the result of determination at step (C) is incorrect, determining whether the first rotation angle 180°; (o) when the result of determination at step (n) is the right saving mode orientation 180°.

10. The method according to claim 9, characterized in that the determination of the orientation mode for the source image data further includes: (p) when the result of determination at step (n) is incorrect saving mode orientation 0°.

11. The method according to claim 2, characterized in that the determination of the orientation mode for the source image data further includes: (q) when the result of determination at step (d) is incorrect saving mode orientation 90 degrees in memory.

12. The method according to claim 2, characterized in that the determination of the orientation mode for the source image data further includes: (r) when the result of determination at step (e) is incorrect saving mode orientation 0 degrees in memory.

13. The method according to claim 1, characterized in that the orientation parameters include at least one of the start image, the position of the end of the image and the scanning direction, which correspond to the orientation mode that was specified.

14. The control device orientation data of the image is agenia contains the display panel can be rotated at least around two axes; detector orientation mode, configured to measure the rotation angle of the display panel and the ability to determine the orientation mode for the original image data on the basis of the measured angles of rotation; a system memory configured to save the orientation parameters corresponding to the multiple modes of orientation image; a system controller configured to receive information indicating that a specific mode of orientation, from the detector orientation mode, and with the possibility of retrieval orientation parameters based on the received information; a driver configured to change the orientation of the original image data in accordance with the extracted parameters orientation, where the image data is modified orientation are stored in the system memory and displayed on the display screen.

15. The device according to 14, characterized in that the display panel is configured to rotate around an axis perpendicular to the display panel.

16. The device according to item 15, wherein the display panel is configured to rotate around a horizontal axis.

17. The device according to 14, characterized in that the detector orientation mode includes at least one sensor configured to measure the angles p the gates of the display panel; the display controller, configured to determine the orientation mode for the original image data on the basis of the measured angles of rotation; the memory of the display, configured to store information indicating a particular orientation mode, where the display controller sends an acknowledgement to the system controller when a request is received to access the display memory.

18. The device according to 17, wherein the at least one sensor may be any of the following: gyro sensor, sensor with metal housing, the switch determining the conductivity, and the switch from mechanical transformation.

19. The device according to 17, wherein the at least one sensor includes a first sensor configured to measure the first angle of the display panel about an axis perpendicular to the display panel; a second sensor configured to measure the second angle of the display panel around the horizontal axis.

20. The device according to 17, characterized in that the orientation mode for the original image data is any of the modes, orientation 0, 90, 180 and 270°.

21. The device according to 14, characterized in that the extracted orientation parameters include at least one of the start image is to be placed, the end point of the image and the scanning direction, which correspond to the orientation mode that was specified.

22. Machine-readable media on which is stored a program for determining the orientation mode for the original image data in the display system, comprising at least a display panel, a processor, a memory and a controller, the orientation of the image and in response to manual rotation of the display panel around at least one of the at least two axes, designed to perform the following steps:

(b) determining, turned the display panel around the first axis of the at least two axes;

(c) when the result of determination at the step (b) is correct, determining whether the first rotation angle of the display panel around the first axis 90°;

(d) when the result of determination at step (C) is correct, the definition turned the display panel around the second axis of the at least two axes;

(e) when the result of determination at step (d) is correct, determining whether a second rotation angle of the display panel around the second axis 180°;

(f) when the result of determination at step (e) is correct, then saving mode orientation 270° in memory;

(g) determining whether a request for memory access received from the controller orientation image;

(h) when the request is made, sending an acknowledgment to the controller orientation of the image to allow access to memory.



 

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15 cl, 18 dwg

FIELD: handheld devices with display; information viewing.

SUBSTANCE: in response to changes of tilt angle of device part of page containing information is changed. The named page lies on a virtual surface in co-ordinates system and every page point has a certain location in co-ordinates system. Initially display surface is oriented against virtual surface so that line of support perpendicular to monument point on display surface and starting from some monument point touches the page containing information in defined point. Part of page around defined point is displayed and in response to handheld device tilt mirror line is created by mirror reflection of support line against line perpendicular to display surface and passing through monumental point. Mirror line virtual surface contact point is defined and a part around contact point is displayed. Also handheld device for viewing information is declared.

EFFECT: improved image adjustment.

24 cl, 20 dwg

FIELD: technology for controlling orientation of image.

SUBSTANCE: orientation mode detector measures angles of rotation of display panel in several directions and determines orientation mode for source image data based on measured rotation angles. System memory stores orientation parameters in accordance to a set of image orientation modes. System controller originally receives information, pointing out orientation mode, from orientation mode detector, and extracts orientation parameters corresponding to received information from system memory. Finally, driver alters orientation of original image data in accordance to extracted orientation parameters.

EFFECT: optimal automatic orientation of image depending on turn of panel of display in several directions.

3 cl, 13 dwg

FIELD: physics, image processing.

SUBSTANCE: invention relates to a display device and more specifically to a display device and control method thereof. The technical result is achieved due to that an initial image is converted to an image with an enhanced picture and a traditional image which are then displayed. The display device has a controller (140) which divides the screen into a first display window and a second display window and outputs control signals based on display options corresponding to the first display window and the second display window, and a video processing device (160) which divides the initial image into a first part and a second part, and modifies picture quality of each part of the image from the first and the second part of the image, which must be displayed in each display window from the first and the second display window depending on the control signals.

EFFECT: more efficient display of images using their control method, which can convert one input signal source into an image with an improved picture and a traditional image in such a way that the image is displayed.

19 cl, 8 dwg, 2 ex

FIELD: information technology.

SUBSTANCE: provided is an integrated interface device for performing a hierarchical operation for specifying a desired content list. The interface device has a function to display a content list, content specified by the content list, or the like by efficiently using a vacant area in the lower part of the display by displaying icons which display a hierarchical relationship, for example, "display in a row", in the upper part of the screen, thereby freeing a large space in the lower part of the display.

EFFECT: efficient use of the entire screen even after displaying an interface for performing an operation.

17 cl, 42 dwg

FIELD: physics.

SUBSTANCE: disclosed is an image processing apparatus which includes: an interface configured to receive input data identifying an object before generating a panoramic image; an image forming unit configured to capture image data for generating a panoramic image; and a processor configured to control the display apparatus so as to display information indicating the position of the object on a graphical presentation, which corresponds to said panoramic image, based on orientation of the image capturing apparatus when capturing image data for generating said panoramic image.

EFFECT: providing a simple method of generating a panoramic image, which is more preferable for a user.

20 cl, 69 dwg

FIELD: physics, computer engineering.

SUBSTANCE: invention relates to a display device and a display method. Disclosed is a display device, having an operation input area through which a user inputs operation information. The display also has a selection area which selects a given region on a display screen based on the operation information and has a scrolling area which performs scrolling of the display screen in a state when the position of the selected region is maintained in a given position.

EFFECT: simple recognition of a selected region of a screen when performing scrolling of the screen by maintaining the selected region in a given position.

10 cl, 23 dwg

FIELD: technology for controlling orientation of image.

SUBSTANCE: orientation mode detector measures angles of rotation of display panel in several directions and determines orientation mode for source image data based on measured rotation angles. System memory stores orientation parameters in accordance to a set of image orientation modes. System controller originally receives information, pointing out orientation mode, from orientation mode detector, and extracts orientation parameters corresponding to received information from system memory. Finally, driver alters orientation of original image data in accordance to extracted orientation parameters.

EFFECT: optimal automatic orientation of image depending on turn of panel of display in several directions.

3 cl, 13 dwg

FIELD: engineering of computer components for ordering graphic elements, shown through graphic user interface.

SUBSTANCE: a system of presenting means provides base class of presenting means and a set of interface methods, realized by presentation mechanism, for creation and integration of expandable set of classes of presenting means for processing data of graphical elements of various types during composition operation in given visible image. System of presenting means allows realization of complex image composition operations through calls of presentation mechanism. Aforementioned complex image composition operations include: breaking into pages, partial computation, stepwise computation, a set of samples, alteration of capabilities/operations of composition.

EFFECT: expanded functional capabilities, due to support of compositions of visible images of application, to which a set of graphic elements is assigned.

4 cl, 15 dwg

FIELD: electronics.

SUBSTANCE: display assembly has a display module to receive a display signal, containing prescribed information, a main circuitry supporting substrate including a ground, a flexible circuitry supporting substrate module connected to the circuitry supporting substrate to process or transfer data for prescribed information from the circuit board to the display module, the flexible circuitry supporting substrate module having recessed conductive portions, and a conductive member connected to the flexible circuitry supporting substrate module to ground the flexible circuitry supporting substrate and the display module, the conductive member including conductive tape applied to the flexible circuitry supporting substrate module and conductive paste to connect recessed conductive portions of the flexible circuitry supporting substrate module to the conductive tape. The display assembly may be formed in a mobile terminal.

EFFECT: mitigation of the internal and external static electricity impact on the display assembly.

12 cl, 8 dwg

FIELD: information technology.

SUBSTANCE: to bring separate single-pixel indicators and separate logic pixels into conformity, a control table is used, which determines the order of displaying image data on the screen of a display device. One single-pixel indicator and one logic pixel correspond to an arbitrary element of the control table. An indicator of a defined colour is activated to generate light flux according to data of the same colour selected from the logic pixel. Selection of these data from the logic pixel and activation of that single-pixel indicator are repeated at high speed. The order of arrangement on the image data plane of geometric centres of non-overlapping or partially overlapping groups from the plurality of logic pixels coincides with the order of arrangement on the surface of the screen of the display device of conditional geometric centres of non-overlapping groups from the plurality of single-pixel indicators, which (groups from a plurality of single-pixel indicators) correspond to those groups from the plurality of logic pixels. Each group from the plurality of logic pixels mutually explicitly corresponds to a group from the plurality of single-pixel indicators. To increase brightness of the image displayed on the screen of the display device, that screen contains white-colour single-pixel indicators which are activated to generate light flux according to data calculated based on data contained in logic pixels which correspond to those white-colour single-pixel indicators.

EFFECT: broader functional capabilities, particularly display of raster data of a colour image on the screen of a display device, higher brightness of the image displayed on that screen.

16 cl, 21 dwg

FIELD: physics.

SUBSTANCE: disclosed device for displaying video on a composite liquid crystal screen, which additionally includes: a LED panel switching and control unit connected to video processors of separate liquid crystal displays, and in the gaps between two separate adjacent liquid crystal screens on the vertical and the horizontal there are LED panels on the surface of the gaps, said panels having three-colour RGB LEDs, the emission of which is directed towards the viewing side of the image of the composite screen, wherein in the gaps on the vertical between two adjacent screens, the number of which is equal to M-1, the video information of the last column of the previous display is displayed, where M is the total number of liquid crystal displays placed on the horizontal, and in the gaps on the horizontal between two adjacent screens, the number of which is equal to N-1, the video information of the last row of the previous display is displayed, where N is the total number of rows on the vertical of horizontally placed liquid crystal displays, and the total number of the three-colour RGB LEDs used in the gaps on the vertical and horizontal is a number m=Y/d and n=X/d, where Y and X denote the linear dimension of the separate liquid crystal screen on the frame (vertical) and row (horizontal), d is the diameter of the separate RGB LED.

EFFECT: high quality of display and comfortability of viewing video on composite liquid crystal screens.

2 cl, 3 dwg

FIELD: image forming device.

SUBSTANCE: invention relates to display systems. Secure display system includes screen consisting of at least two independent matrices; light box consisting of at least two independent subassemblies, each backlighting each half-screen; two bypass functions; central module having a function of mixing the data originating from the two independent graphic channels; function of separating said data; and two power supply units. Each of the matrix is controlled by an independent graphics channel and has separate input. Each bypass function is connected to the appropriate graphics channel and the input of one of the matrices. Each graphics channel comprises an image forming apparatus. Separation module is connected to said bypass functions.

EFFECT: high fault-tolerance, provision of dual and full-screen operation modes.

10 cl, 7 dwg

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