KR20190108762A - Electronic apparatus and control method thereof - Google Patents

Abstract

According to the present invention, an electronic device comprises: a signal receiving unit receiving a signal of an image; an image processing unit processing the received signal of the image; a communication unit communicating with a display device including a plurality of displays; and a processor receiving the signal of a first image of first resolution, controlling the image processing unit to output the signal of a second image of second resolution by rearranging a part of the first image with regard to the received signal of the first image, and controlling the communication unit to transmit arrangement information of the second image to be displayed on each display and the signal of the second image to the plurality of displays so that the first image is divided and displayed on the plurality of displays.

Description

Electronic device and its control method {ELECTRONIC APPARATUS AND CONTROL METHOD THEREOF}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electronic device and a control method thereof, and more particularly, to an electronic device and a control method for playing a content image on a plurality of displays.

A system on chip (SoC) for processing an image signal used in a TV processes an image according to an aspect ratio determined based on a received broadcast signal.

The set top box for an LED has an output structure with a fixed aspect ratio, so that only a fixed resolution such as 1920 * 1080 corresponding to FHD can be supported when transmitting an image signal to an LED display.

Therefore, when the display layout is installed vertically or horizontally long, one set-top box is impossible to output a signal suitable for the layout.

In this case, additional set-top boxes need to be installed and equipment such as a PC or a video processor must be used to divide the signals between the set-top boxes, which increases cost and restricts installation locations. have.

Accordingly, it is an object of the present invention to provide an electronic device and a control method thereof capable of reproducing content on a plurality of displays without the addition of a set-top box.

Another object of the present invention is to provide an electronic device and a control method thereof, which enable content to be reproduced on a plurality of displays without changing the original content, for content that is not a resolution that can be processed in a set-top box.

According to an aspect of the present invention, there is provided an electronic device comprising: a signal receiving unit for receiving a signal of an image; An image processor capable of processing a signal of a received image; A communication unit communicating with a display device including a plurality of displays; Receiving a signal of the first image of the first resolution, and controls the image processing unit to output a signal of the second image of the second resolution by rearranging a part of the first image with respect to the received signal of the first image, Achieved by an electronic device including arrangement information of a second image to be displayed on each display so that one image is divided and displayed on the plurality of displays, and a processor controlling a communication unit to transmit a signal of the second image to the plurality of displays Can be.

According to the exemplary embodiment of the present invention, the design change of the SoC chip driver can be minimized, and contents can be reproduced on a plurality of displays without adding a set-top box. In addition, content that is not a resolution that can be processed by the set-top box can be played on a plurality of displays without changing the original content.

The processor may control the image processor to generate the second image by dividing the first image into a plurality of regions based on the resolution of each display, and rearranging some of the divided regions. . Accordingly, by dividing the content image in accordance with the display layout and rearranging the divided partial regions, the plurality of displays can be reproduced.

The processor may control the image processor to rearrange a part of the first image when the total number of pixels of the first image is less than or equal to the number of pixels corresponding to the second resolution. Accordingly, when the number of pixels of the content is less than or equal to the number of fixed resolution pixels that can be processed in the set-top box, the content may be reproduced on the plurality of displays by rearranging a part of the content image.

 When either one of the horizontal length and the vertical length of the first resolution is larger than the corresponding length of the second resolution, the image processor may be controlled to rearrange a part of the first image. Accordingly, when the aspect ratio of the resolution of the content is different from the aspect ratio of the resolution that can be processed by the set-top box, the content may be reproduced on the plurality of displays by rearranging a part of the image.

The electronic device may further include a storage unit, and the processor may store information regarding division and relocation of the first image in the storage unit and receive the image having the same first resolution as the first image. The image processor may be controlled to display the images on the plurality of displays by using the stored information. Accordingly, when an image signal having the same resolution as the previously received content is received, the image signal may be efficiently processed using the segmentation and relocation information stored for the same resolution.

The arrangement information of the second image may include identification information of the display to display the second image. Accordingly, when the divided and rearranged content is output to a plurality of displays, an identification number of a display corresponding to each divided area of the content image may be defined, and an image of a corresponding area may be output to each display.

According to the present invention, there is provided a computer program product, comprising: a memory in which a plurality of instructions are stored; And a processor, wherein the instructions, when executed by the processor, receive a signal of the first image of the first resolution, reposition a portion of the first image with respect to the received signal of the first image, A computer program comprising outputting signals of two images and transmitting arrangement information of a second image to be displayed on each display so that the first image is divided and displayed on the plurality of displays, and transmitting signals of the second image to the plurality of displays. It can also be achieved by a product.

According to the exemplary embodiment of the present invention, the design change of the SoC chip driver can be minimized, and contents can be reproduced on a plurality of displays without adding a set-top box. In addition, content that is not a resolution that can be processed by the set-top box can be played on a plurality of displays without changing the original content.

The instruction may include dividing the first image into a plurality of regions based on the resolution of each display, and rearranging some of the divided regions to generate the second image. Accordingly, by dividing the content image in accordance with the display layout and rearranging the divided partial regions, the plurality of displays can be reproduced.

According to an aspect of the present invention, there is provided a control method of an electronic device, the method comprising: receiving a signal of a first image having a first resolution; Outputting a signal of a second image having a second resolution by rearranging a part of the first image with respect to the received signal of the first image; The arrangement information of the second image to be displayed on each display so that the first image is divided and displayed on the plurality of displays, and transmitting the signal of the second image to the plurality of displays to be achieved by a control method of the electronic device Can be.

According to the exemplary embodiment of the present invention, the design change of the SoC chip driver can be minimized, and contents can be reproduced on a plurality of displays without adding a set-top box. In addition, content that is not a resolution that can be processed by the set-top box can be played on a plurality of displays without changing the original content.

The method includes dividing the first image into a plurality of regions based on the resolution of each display; And rearranging some of the divided regions to generate the second image. Accordingly, by dividing the content image in accordance with the display layout and rearranging the divided partial regions, the plurality of displays can be reproduced.

The method may include rearranging a part of the first image when the total number of pixels of the first image is less than or equal to the number of pixels corresponding to the second resolution. Accordingly, when the number of pixels of the content is less than or equal to the number of fixed resolution pixels that can be processed in the set-top box, the content may be played on the plurality of displays by rearranging a part of the content image.

The method may include relocating a portion of the first image when either one of the horizontal length and the vertical length of the first resolution is larger than the corresponding length of the second resolution. Accordingly, when the aspect ratio of the resolution of the content is different from the aspect ratio of the resolution that can be processed by the set-top box, the content may be reproduced on the plurality of displays by rearranging a part of the image.

The method includes storing information regarding division and relocation of the first image; When receiving an image having the same first resolution as the first image, the method may include splitting and displaying the image on the plurality of displays using the stored information. Accordingly, when an image signal having the same resolution as the previously received content is received, the image signal may be efficiently processed using the segmentation and relocation information stored for the same resolution.

The arrangement information of the second image may include identification information of the display to display the second image. Accordingly, when the divided and rearranged content is output to a plurality of displays, an identification number of a display corresponding to each divided area of the content image may be defined, and an image of a corresponding area may be output to each display.

As described above, according to the present invention, the content can be reproduced on a plurality of displays without the addition of a set-top box, thereby reducing costs and securing spatial efficiency.

In addition, content that is not a resolution that can be processed by the set-top box can be played on a plurality of displays without changing the original content.

1 is a schematic diagram illustrating a configuration for outputting a plurality of display of a content image according to an embodiment of the present invention.
2 is a block diagram illustrating a configuration of an electronic device according to an embodiment of the present invention.
3 is a flowchart illustrating a control method of an electronic device according to an embodiment of the present disclosure.
4 illustrates an example of using a plurality of set-top boxes to output a plurality of display signals according to an embodiment of the present invention.
5 illustrates an example of data flow between a set-top box, an LED display, and an LED layout manager according to an exemplary embodiment of the present invention.
6 is a flowchart illustrating a process of rearranging content using display information and layout information according to an embodiment of the present invention.
7 is an example of inputting layout information for outputting content to a plurality of displays according to an embodiment of the present invention.
8 illustrates an example of dividing and rearranging content using layout information according to an embodiment of the present invention.
9 illustrates an example of outputting content to a plurality of displays using layout information according to an embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. As those skilled in the art would realize, the described embodiments may be modified in various different ways, all without departing from the spirit or scope of the present invention.

1 is a schematic diagram illustrating a configuration for outputting a plurality of display of a content image according to an embodiment of the present invention. As shown in FIG. 1, the electronic device 20 of the present invention includes a set top box 220 and a PC 221, and the set top box 220 includes a video signal 11 of a content having a first resolution. ) And outputs the image to the LED display 111 composed of a plurality of displays by performing image processing.

In the electronic device 20 of this embodiment, the PC 221 uses a program such as the LED layout manager 260 to layout information of the LED display 111 related to the layout of each display using the resolution information of each display. Input and transfer the input layout information to the set-top box 220.

The set top box 220 divides the video signal 11 of the content into a plurality of areas based on the layout information of the LED display 111 transmitted from the PC 221, and the video signal 11 of the content is set-top box. A process of rearranging a part of the plurality of divided regions to be output at the second resolution processable at 220 is performed.

The set top box 220 outputs an image of the second resolution generated by rearranging a portion of the image signal 11 of the content to the LED display 111 as described above. At this time, the set-top box 220 transmits the identification information of each display to which the respective divided regions of the second resolution image are output to the LED display 111 so as to be output to the corresponding display.

2 is a block diagram illustrating a configuration of an electronic device according to an embodiment of the present invention. As shown in FIG. 2, the electronic device 20 of the present invention includes a signal receiver 21, an image processor 22, a communication unit 24, and a processor 25, and includes a communication unit 24. The display apparatus 100 may communicate with the display apparatus 100 through the display apparatus 100. In addition, the electronic device 20 may further include a configuration of the display unit 23, the user input unit 26, and the storage unit 27.

The electronic device 20 may be implemented as, for example, a set top box, a TV, a PC, or the like, and the display device 100 may include, for example, an LED display 111 or a wall including a plurality of displays 1111, 1112, and. ) May be implemented as a display. Configurations included in the electronic device 20 are not limited by the exemplary embodiment of the present invention, and may be implemented except for some components or may include other additional components.

The communication unit 24 may be provided as a communication interface that can communicate with the display apparatus 100 in a wireless or wired communication manner. The communication unit 24 communicates with the display apparatus 100 in a wired communication method such as Ethernet, or the display apparatus 100 through a wireless router in a wireless communication method such as Wi-Fi or Bluetooth. Communicate with The manner in which the communication unit 24 communicates is not limited thereto, and may also communicate using other communication methods.

As another example, the communication unit 24 may be provided with a plurality of ports connected to the display apparatus 100 by a cable to transmit or receive data. The plurality of ports may be implemented in the form of a socket or a plug.

The signal receiver 21 receives a video signal of content from an external device, and the video signal may include, for example, a video or graphic signal. The signal receiver 21 may be provided in various formats according to the standard of the received broadcast signal and the video signal and the implementation form of the electronic device 20. For example, the signal receiver 21 may be implemented as a tuner for receiving a radio frequency (RF) broadcast signal or a satellite signal transmitted from a broadcasting station.

The image processor 22 performs a predetermined signal processing process on the video signal or the broadcast signal received by the signal receiver 21. Examples of signal processing performed by the image processor 22 include demultiplexing, decoding, de-interlacing, scaling, noise reduction, and detail enhancement. ), And the kind thereof is not limited. The image processor 22 may be implemented as an SOC (System-On-Chip) incorporating various functions or an image processing board equipped with individual components capable of independently performing each process.

The display unit 23 displays an image based on the image signal or the broadcast signal processed by the image processor 22. The implementation of the display unit 23 is not limited, and the display unit 13 may include various types of plasma display panels (PDPs), liquid crystal displays (LCDs), organic light emitting diodes (OLEDs), and flexible displays. It may be implemented in the form.

The user input unit 26 receives a user input for controlling at least one function of the electronic device 20. For example, the user input unit 26 may receive a user input for selecting a part of a user interface displayed on the display unit 23. The user input unit 26 may be implemented in the form of an input panel provided outside the electronic device 20 or as a remote controller communicating with the electronic device 20 in an infrared manner. In addition, the user input unit 26 may be implemented as a keyboard or a mouse connected to the electronic device 20, or may be implemented as a touch screen provided in the electronic device 20.

In an embodiment, the user input unit 26 may receive a user input from a mobile device (not shown) that communicates with the electronic device 20 through Wi-Fi, Bluetooth, or infrared war communication. have. In this case, the mobile device may be provided as a smart phone, for example, by installing a remote control application (Application), running the remote control app to touch the user input through the button touch to control the operation of the electronic device 20, etc. Transmit to device 20.

The storage unit 27 includes a first memory (not shown) and a second memory (not shown). The first memory is implemented as a nonvolatile memory such as a flash-memory so that data can be stored regardless of whether the electronic device 20 is provided with system power.

The first memory stores a plurality of instructions of at least one executable program. The first memory allows read, write, edit, delete, update, etc. to be performed on each of the plurality of stored instructions.

The second memory is a high speed buffer memory provided between the first memory and the processor 25 and is called a cache memory or a local memory. The second memory is faster than the flash memory and is directly accessible by the processor 25. The second memory is an area in which a plurality of instructions of data or programs frequently accessed by the processor 25 are stored for immediate use without repetitive retrieval, and may be implemented as, for example, RAM. For example, the second memory may be integrally provided inside the processor 25.

 The processor 25 performs a control process for controlling a plurality of functions that the electronic device 20 can perform. The processor 25 may be implemented as a central processing unit (CPU) and includes three areas of control, operation, and registers. The control region interprets a plurality of instructions stored in the first memory and instructs the operation of each component of the electronic device 20 according to the meaning of the interpreted command. The arithmetic area performs arithmetic and logical operations, and performs operations required for each component of the electronic device 20 to operate according to the instructions of the control area. The register is a storage place for storing information necessary while executing a plurality of instructions in the CPU. The register stores instructions and data for each configuration of the electronic device 20, and stores a calculated result.

The processor 25 executes a plurality of instructions of at least one program stored in the first memory and the second memory, for example, an operating system of the electronic device 20, a security program such as a DRM or CAS, and a client. Applications, web-based applications, applications for Internet communications, and the like.

In one embodiment, the processor 25 may download and execute instructions stored in a separate computer program product (not shown). In one embodiment, a computer program product includes a memory in which instructions are stored and a processor. Here, when the instruction is executed by the processor, the first image 70 with respect to the signal of the first image (see symbol '70' in FIG. 7) of the first resolution (see symbol '78' in FIG. 7) received. ) And a part of the second image (see symbol '88' in FIG. 8) is outputted to output a signal of the second image (see symbol '80' in FIG. 8), and the first image 70 displays a plurality of displays ( And transmitting the arrangement information of the second image 80 to be displayed on each display and the signal of the second image 80 to the plurality of displays 111 so as to be divided and displayed on the display 111.

In one embodiment, the instruction is to divide the first image 70 into a plurality of regions based on the resolution of each display, and to rearrange some of the divided regions to generate the second image 80. It may include.

In an embodiment of the invention, the operation of the processor 25 may be shown as the flow chart of FIG. First, in operation S31, the processor 25 receives a signal of the first image 70 of the first resolution 78.

Next, in operation S32, the processor 25 rearranges a part of the first image 70 with respect to the signal of the received first image 70, and thereby the second image 80 of the second resolution 88. Outputs the signal of.

In one embodiment, in operation S32, the processor 25 divides the first image 70 into a plurality of regions based on the resolution of each display, and rearranges a part of the plurality of divided regions to form a second image. An operation of generating the image 80 may be performed.

Herein, when the total number of pixels of the first image 70 is less than or equal to the number of pixels corresponding to the second resolution 88, the processor 25 may perform an operation of rearranging a part of the first image 70.

Further, the processor 25 may rearrange a part of the first image 70 when at least one of the horizontal length and the vertical length of the first resolution 78 is larger than the corresponding length of the second resolution 88. You can perform the operation.

Finally, in operation S33, the processor 25 may include arrangement information of the second image 80 to be displayed on each display and the second image such that the first image 70 is divided and displayed on the plurality of displays 111. The signal of 80 is transmitted to the plurality of displays 111.

Here, the arrangement information of the second image 80 may include identification information of a display for displaying each area of the second image 80. For example, the processor 25 generates arrangement information in which device IDs of respective displays corresponding to each of the plurality of regions of the second image 80 are generated among the plurality of displays 111, and the arrangement information is displayed in the plurality of displays. By transmitting to 111, each region of the second image 80 may be output to a corresponding display.

In an embodiment, the processor 25 may store information regarding division and relocation of the first image 70, and upon receiving an image having the same first resolution 78 as the first image 70. By using the stored information, the image may be divided and displayed on the plurality of displays 111.

When the signal of the second image 80 of the second resolution 88 is transmitted to the display apparatus 100 by the operation of the processor 25 as described above, the display apparatus 100 transmits the second image 80 transmitted by the display apparatus 100. ) May be output to the plurality of displays 111 based on the arrangement information of the second image 80.

For example, the display apparatus 100 cuts an area to be output to each display from the second image 80 based on the arrangement information of the second image 80 and then daisy-chains each area. Signal can be output to the corresponding display. Here, the arrangement information of the second image 80 includes a plurality of regions of the second image 80 and information on the device ID of the display corresponding to each region, and the second arrangement 80 uses the arrangement information to form the second information. The signal of each region of the image 80 may be output to the corresponding display.

In this case, the method of outputting each area of the second image 80 to each display is not limited to the daisy chain method, and may be implemented in various ways.

As described above, according to the present invention, the design change of the SoC chip driver can be minimized, and contents can be reproduced on a plurality of displays without adding a set-top box. In addition, content that is not a resolution that can be processed by the set-top box can be played on a plurality of displays without changing the original content.

4 illustrates an example of using a plurality of set-top boxes to output image signals to a plurality of displays in the related art of the present invention. The illustrated example shows a case in which two set-top boxes 220 are configured to output an image signal to the LED display 111.

For example, in the LED display 111 composed of 12 * 4 display layouts and having a resolution of 3840 * 540, the output of an image signal is impossible with one set-top box 22 that supports only FHD output of 1920 * 1080. .

In this case, since the horizontal length 3840 of the resolution of the LED display 111 exceeds 1920, the horizontal length of the FHD output, two set-top boxes 22 may be configured to output video signals.

5 illustrates an example of data flow between a set-top box, an LED display, and an LED layout manager according to an exemplary embodiment of the present invention. The illustrated example illustrates the flow of data between the set-top box 220, the LED display 111, and the PC 221 of FIG. 1 in more detail. The flow of data between the devices is illustrated in each operation of FIG. 3. It can be explained by. The LED layout manager 260 may be implemented as a predetermined application or program executed by the PC 221.

In the illustrated example, the flow of data between the set top box 220 and the LED layout manager 260 corresponds to operation S32, and the flow of data between the set top box 220 and the LED display 111 corresponds to operation S33. .

Hereinafter, the operation performed by the set top box 220 will be described in more detail the operation of the processor 25.

The set top box 220 requests information about each display from the LED display 111 (S51). For example, the set-top box 220 requests the LED type and resolution information of each display, and sets and stores information such as image quality, resolution, and pitch for each display using the information received according to the request. S52).

The set top box 220 provides the resolution information of each display to the LED layout manager 260 (S53), and the LED layout manager 260 uses the resolution information of each display to provide the user with the resolution of the LED display 111. A UI (User Interface) is provided to input layout information of the LED display 111 related to the arrangement (S54).

The layout information of the LED display 111 may include a total number of displays constituting the LED display 111, information about an arrangement position of each display, and the like. By way of example, layout information may be automatically set based on the resolution of each display without user input.

The LED layout manager 260 transmits layout information of the LED display 111 to the set top box 220 (S55), and the set top box 220 uses each layout information by using layout information received from the LED layout manager 260. In operation S56, the first image 70 is divided into a plurality of areas so as to correspond to the position where the is arranged.

The set-top box 220 rearranges a portion 71 of the plurality of divided regions such that the first image 70 is within the range of the second resolution 88, and thus has a second image 80 having the second resolution 88. ) Is generated (S57). In an embodiment, the relocation of some of the plurality of areas of the first image 70 may be performed according to a user input through the UI.

The LED layout manager 260 transmits crop information for cutting each region to the LED display 111 so that the second image 80 generated by the rearrangement is output to each display as described above (S58). . Here, the crop information includes identification information of a corresponding display on which each region of the second image 80 is to be displayed.

The LED display 111 stores crop information of each transmitted display, and sets an area of the display where each area of the second image 80 is output according to the crop information.

The set top box 220 transmits the signal of the second image 80 generated by rearrangement to the LED display 111 (S59).

The LED display 111 outputs the second image 80 having the second resolution 88 transmitted from the set-top box 220 to each display by using the crop information received and stored from the LED layout manager 260. S591).

6 is a flowchart illustrating a process of rearranging content using display information and layout information according to an embodiment of the present invention. In the illustrated example, the split and rearrangement of the first image performed by the set-top box 220 is illustrated in more detail.

In the illustrated example, the operations S61 to S64 further embody the operations S32 of FIG. 3. In particular, the operations S61 and S62 may rearrange a part of the first image 70 to adjust the resolution of the second resolution 88. An additional operation to be preceded to output the second image 80 is defined.

The processor 25 of the electronic device 20 of the present embodiment first acquires the resolution of the LED display 111 and the layout information of the LED display 111 in operation S61.

Next, in operation S62, the processor 25 determines whether the total number of pixels of the received first image of the first resolution is equal to or less than the number of pixels of the FHD.

As a result of the determination, if the total number of pixels of the first resolution is equal to or less than the number of pixels of the FHD, the processor 25 performs an operation of rearranging a part of the first image in operation S63.

In one embodiment, in operation S63, the processor 25 divides the first image stored in the frame buffer by the resolution of each display of the LED display 111, so that the first image may be divided and output to each display. The operation of dividing into a plurality of areas is performed.

Further, in operation S63, the processor 25 performs an operation of generating a second image having a resolution of FHD by rearranging an area where the first image is displayed to the inside of the FHD.

Finally, in operation S64, the second image generated by rearranging the first image is output to the LED display 111 through operation S63.

7 to 9, the operation of inputting layout information of the LED display 111 through the LED layout manager 260 of FIG. 5, and the set-top box 220 splits and rearranges the first image using the layout information. An example of an operation of displaying an image on the LED display 111 through the operation will be described.

7 is an example of inputting layout information for outputting content to a plurality of displays according to an embodiment of the present invention.

In the present embodiment, the operation of the processor 25 may include a case where the set-top box 220 and the PC 221 operate in real time. As another example, the operation of the processor 25 may include a case in which information is transmitted and operated in one or two directions between the set-top box 220 and the PC 221.

In the present embodiment, the processor 25, the LED layout manager 260 to output the first image 70 having the first resolution 78 of 2880 * 720 to the LED display 111 of 3840 * 2160. Through the input of layout information related to the layout of each display.

In one embodiment, the processor 25 uses the resolution information 320 * 360 of each display received from the LED display 111 to arrange the plurality of displays in a layout of 12 * 6. Layout information can be input through.

The processor 25 arranges the plurality of displays in a layout of 12 * 6 through the UI of the LED layout manager 260 using the input layout information, and based on the resolution (320 * 360) of each display 2880 * The first image 70 having the first resolution 78 of 720 is arranged in a layout of 9 * 2.

8 illustrates an example of dividing and rearranging content using layout information according to an embodiment of the present invention. In the illustrated example, the first image 70 disposed on the layout of the LED display 111 through the LED layout manager 260 in FIG. 7 is output to the second resolution 88 output from the set-top box 220. This is an example of rearranging some areas to be processed.

In one embodiment, the processor 25 selects a partial region 71 of the first image 70 having the first resolution 78 through the UI of the LED layout manager 260, and selects the selected partial region ( The second image 80 having the second resolution 88 may be generated by rearranging 71 to the new region 81.

For example, the processor 25 may transmit information about the second image 80 generated by the LED layout manager 260 to the set-top box 220, and the set-top box 220 may generate information based on the received information. It may be determined whether the second resolution 88 of the two images 80 is a resolution that can be processed by the set-top box 220, and the result is fed back to the LED layout manager 260.

As another example, the processor 25 selects the partial region 71 of the first image 70 and rearranges the new region 81 within the range of the FHD without input through the UI. It is also possible to directly determine the area to be relocated to perform the relocation operation automatically.

In the illustrated example, the received first image 70 has a first resolution 78 of 2880 * 720, and the second image 80 generated by relocation corresponds to an FHD that can be output from the set-top box 220. It has a second resolution 88, that is, 1920 * 1080 resolution.

9 illustrates an example of outputting content to a plurality of displays using layout information according to an embodiment of the present invention. In FIG. 8, the second image 80 generated by rearranging a part 71 of the first image 70 is output to the LED display 11.

As an example, the second image 80 generated by the relocation includes a plurality of regions 1.1, 2.1,?, And 6.3 having a layout of 6 * 3 corresponding to the resolution of the FHD.

The processor 25 transmits the signal of the second image 80 and the arrangement information of the second image 80 to the LED display 111 and based on the transferred arrangement information of the second image 80, Each region 1.1, 2.1,?, 6.3 of the two-image 80 is displayed on the corresponding display of the LED display 111.

As described above, according to the present invention, when the horizontal length or the vertical length of the resolution of the received content image is larger than the corresponding length of the resolution of the FHD, the content image is output to the plurality of displays without additional installation of the set-top box 220. can do.

As mentioned above, the present invention has been described in detail through the preferred embodiments, but the present invention is not limited thereto and may be variously implemented within the scope of the claims.

20: electronics
21: signal receiver
22: image processing unit
23: display unit
24: communication unit
25: processor
26: user input unit
27: storage
220: set-top box
221: PC
260: LED layout manager
100: display device
111: LED display
11, 70: first image
80: second image

Claims (14)

In the electronic device,
A signal receiver which receives a signal of an image;
An image processor capable of processing a signal of the received image;
A communication unit communicating with a display device including a plurality of displays;
Receive a signal of the first image of the first resolution,
Controlling the image processor to rearrange a part of the first image and output a signal of a second image having a second resolution with respect to the received signal of the first image,
A processor configured to control the communication unit to transmit the arrangement information of the second image to be displayed on each display and the signal of the second image to the plurality of displays so that the first image is divided and displayed on the plurality of displays. Electronic device comprising. The method of claim 1,
The processor is configured to control the image processor to divide the first image into a plurality of areas based on the resolution of each display, and to reposition a part of the divided areas to generate the second image. . The method of claim 1,
And the processor controls the image processor to rearrange a part of the first image when the total number of pixels of the first image is less than or equal to the number of pixels corresponding to the second resolution. The method of claim 1,
And control the image processor to reposition a portion of the first image when either one of the horizontal length and the vertical length of the first resolution is larger than a corresponding length of the second resolution. The method of claim 2,
Further comprising a storage unit,
The processor is configured to store information regarding division and relocation of the first image in the storage unit, and when the image having the same first resolution as the first image is received, the image is stored using the stored information. An electronic device for controlling the image processor to be displayed on the display. The method of claim 1,
The arrangement information of the second image includes the identification information of the display to display the second image. In computer program products,
A memory in which a plurality of instructions are stored;
Includes a processor,
The instruction, when executed by the processor, receives a signal of a first image of a first resolution, repositions a portion of the first image with respect to the signal of the received first image, and reconstructs a portion of the second resolution of a second resolution. Outputting a signal of an image and transmitting the arrangement information of the second image to be displayed on each display and the signal of the second image to the plurality of displays such that the first image is divided and displayed on the plurality of displays. Computer program product comprising. The method of claim 7, wherein
And wherein the instructions include dividing the first image into a plurality of regions based on the resolution of each display, and rearranging a portion of the plurality of divided regions to generate the second image. In the control method of an electronic device,
Receiving a signal of a first image of a first resolution;
Outputting a signal of a second image having a second resolution by rearranging a part of the first image with respect to the received signal of the first image;
And transmitting the arrangement information of the second image to be displayed on each display and the signal of the second image to the plurality of displays so that the first image is divided and displayed on the plurality of displays. Way. The method of claim 9,
Dividing the first image into a plurality of areas based on the resolution of each display;
And rearranging some of the divided regions to generate the second image. The method of claim 9,
And rearranging a part of the first image when the total number of pixels of the first image is less than or equal to the number of pixels corresponding to the second resolution. The method of claim 9,
And relocating a portion of the first image when either one of the horizontal length and the vertical length of the first resolution is larger than the corresponding length of the second resolution. The method according to claim 10,
Storing information regarding division and relocation of the first image;
And when the image having the same first resolution as the first image is received, displaying the image on the plurality of displays by using the stored information. The method according to claim 9,
The arrangement information of the second image includes the identification information of the display to display the second image.

Images