KR100922116B1 - System and Method for Integrating Multiple Display Devices - Google Patents

Abstract

The present invention relates to a multi-display device integration system and method thereof. More particularly, the present invention relates to a multi-display device integrating system and method for integrating various types of display devices so that the user can function as a desired combination of displays.

According to an aspect of the present invention, there is provided a display integration system incorporating a plurality of display devices, comprising: a display controller configured to manage the plurality of display devices and to combine the plurality of display devices in a virtual display; And a display application unit for dividing an input image under the control of the display control unit and transmitting the divided image to the display devices.

Display, multi-monitor, network display, resolution, tiled display

Description

System and Method for Integrating Multiple Display Devices

The present invention relates to a multi-display device integration system and method thereof. More particularly, the present invention relates to a multi-display device integrating system and method for integrating various types of display devices so that the user can function as a desired combination of displays.

Recently, with the development of computer technology, it is common to connect multiple monitors to one computer. So-called "multi-monitors" can be used to connect two or more monitors to a single computer, expanding the screen, or working with different windows on each monitor. These multi-monitors can be used when various computer programs are being used simultaneously, when you want to see stock market performance of multiple stocks, when monitoring multiple spaces in one place, or when multiple monitors display one screen separately. This is useful in various situations, such as when printing on a large screen.

The methods for using two or more monitors with one computer include a method in which a computer operating system directly supports a plurality of monitors simultaneously or independently, or a method of driving a plurality of monitors using a separate driving device. It is used.

Prior arts related to the control of such a multi-monitor include the following.

In Korean Patent Publication No. 10-0418154 (published date: February 14, 2004), the job display windows being displayed are automatically aligned so as not to span a plurality of monitors, and the multiple job display windows are not overlapped with each other. A monitor display control method is disclosed.

Korean Patent Publication No. 10-2006-0049762 (published date: May 19, 2006, the same as US Patent Publication No. 2006/001593) in the multi-monitor display system to compensate for the physical position difference between the monitors Disclosed are a system and method for presenting a more realistic screen to a user.

However, in addition to various monitors such as a CRT method, an LCD method, and a PDP method, a display device includes various devices such as a projector that outputs a screen on a wall screen. In addition, these various display devices may have different sizes and resolutions, and may not be adjacent in position or even located in different places.

Therefore, the conventional technology has a problem that it is difficult to integrate and use various types of display device.

In order to solve this problem, it is an object of the present invention to provide a multi-display integrated system and method for integrating a variety of display devices to function as a display of the user's desired combination.

To this end, the present invention provides a display integration system that integrates a plurality of display devices, comprising: a display control unit for managing the plurality of display devices and combining the plurality of display devices and placing the plurality of display devices in a virtual display; And a display application unit for dividing an input image under the control of the display control unit and transmitting the divided image to the display devices.

The display controller may further include a main controller configured to perform a control signal transmission function and a general control function of the display controller, a display device manager connected to the display device to store and manage characteristics of the display device, and the display device. And a virtual display setting unit disposed on the virtual display and reflecting an output position and a size of the input image.

The display controller may further include an image synchronizer for controlling image output synchronization of the display apparatuses.

The display devices may be physically located at the same place or remotely located, and the data of the image to be output may be stored in itself or transmitted through a network.

The display application unit may include a control signal receiving unit receiving a control signal from the main control unit, an image receiving unit receiving the image data, and an image received by the image receiving unit based on a control signal of the main control unit. And an image transmitter for dividing the divided image according to the display device, and an image transmitter for transmitting the divided image divided by the image divider to a designated display device.

In addition, the display application unit may further include an image converting unit for converting the image received from the image receiving unit into a format that is not segmentable.

In addition, the pixel size is preferably adjusted according to the resolution and size of the display device to be output.

The display application unit may further include a frame rate adjusting unit for monitoring the frame rate of the image transmitted through the image transmitting unit to adjust the image frame rate converted by the image converting unit according to the transmitted frame rate. .

Meanwhile, according to an aspect of the present invention, a display integration method incorporating a plurality of display devices, the method comprising: (a) recognizing the plurality of display devices; (b) placing the plurality of display devices on a virtual display according to a user's request to set up an integrated display; (c) setting a size and a position of an image to be output on the virtual display; (d) receiving an image and dividing the image into a divided image according to the size and position of the image to be output set in the virtual display; And (e) transmitting the divided image to a designated display device.

Preferably, in the step (e), the synchronization message is transmitted to all of the display apparatuses in order to synchronize the image output at each of the display apparatuses when the initial image data is transmitted.

The multi-display integration method may include: (f1) stopping transmission of image data to the display apparatus when the size or position of the image on the virtual display changes, (f2) changing the size or position of the image. Transmitting a synchronization message to an existing activated display device and a newly activated display device according to an image output synchronization update request and response for reflecting; And (f3) further repeating steps (d) to (e).

According to the present invention, it is possible to integrate various display devices into one computer or network base and use them as one display device.

Further, according to the present invention, as the display devices having different sizes or resolutions can be integrated and used, user convenience is increased.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. First, in adding reference numerals to the components of each drawing, it should be noted that the same reference numerals are assigned to the same components as much as possible, even if shown on different drawings. In addition, in describing the present invention, when it is determined that the detailed description of the related well-known configuration or function may obscure the gist of the present invention, the detailed description thereof will be omitted. In addition, the following will describe a preferred embodiment of the present invention, but the technical idea of the present invention is not limited thereto and may be variously modified and modified by those skilled in the art.

1 illustrates an example of an actual physical arrangement of a plurality of display devices.

In the case of using a plurality of display devices 10, the display devices 10 may be arranged at a physical distance from each other according to their actual arrangement. In addition, each display apparatus 10 may have different characteristics such as size, resolution, and display method.

1 illustrates a display device 10 in various formats, and shows a first display cluster 10a, a second display cluster 10b, a third display cluster 10c, and a fourth display cluster 10d. It was. Here, the cluster is referred to as a cluster because the display device 10 may be a single device, but a plurality of display devices, such as 10b or 10c, may form one set (such as a conventional multi-monitor). That is, the second display cluster 10b includes six unit display devices 10b-1,..., And 10b-6, and the third display cluster 10c includes four unit display devices 10c. -1, ..., 10c-4).

In an environment in which a plurality of such display devices 10 are used, the present invention allows a user to use a plurality of display devices 10 in combination as necessary.

FIG. 2A illustrates an example of integrating multiple display devices into one display in a multi-display integration system and method according to a preferred embodiment of the present invention, and FIG. 2B illustrates a multi-display integration system according to a preferred embodiment of the present invention. And an example of integrating multiple display devices into two group displays in a method.

Referring to FIG. 2A, the virtual display 20 is set to use the display apparatus 10 as one display in the present invention.

Display clusters 10a, 10b, 10c, and 10d are disposed in the virtual display 20. Preferably, the display clusters 10a, 10b, 10c, 10d are located on the virtual display 20 based on the actual size. As an example of a specific method, in the arrangement of the display clusters 10a, 10b, 10c, and 10d, a reference point R is set at a specific position of the virtual display 20, and each display cluster 10a, 10b, 10c, or 10d is provided. ) Also set individual reference points (R1, R2, R3, R4). The positional relationship between the individual reference points R1, R2, R3, R4 and the reference point R of the virtual display 20 defines the position on the virtual display 20 of the display clusters 10a, 10b, 10c, 10d. As an example, the position of each reference point R1, R2, R3, and R4 may be set as a vector with respect to the reference point R of the virtual display 20.

Meanwhile, the virtual display 20 illustrates a state in which the display clusters R1, R2, R3, and R4 are arranged horizontally in FIG. 2A or 2B, but the virtual display 20 forms a two-dimensional virtual space. The clusters R1, R2, R3, and R4 may be arranged at various positions on two dimensions according to a user's request.

In arranging the display clusters 10a, 10b, 10c, and 10d in the virtual display 20, regardless of the actual physical distances of the display clusters 10a, 10b, 10c, and 10d, the virtual display 20 can be used on the virtual display 20 according to a user's request. The display clusters 10a, 10b, 10c, and 10d may be arranged with a virtual distance of. That is, the plurality of display devices are arranged in the virtual display 20 according to the user's intention, and the display devices may be arranged according to the user's setting regardless of whether the display devices are located in the same place or spaced place. .

On the other hand, in arranging the display clusters 10a, 10b, 10c, and 10d on the virtual display 20, the sizes of the display clusters 10a, 10b, 10c, and 10d should be considered. Consideration should be given to the resolution of the display clusters 10a, 10b, 10c, and 10d.

FIG. 2A shows that the display clusters 10a, 10b, 10c and 10d are configured to function as one display on the virtual display 20, but in the case of FIG. 2b, the display clusters 10a, 10b, 10c and 10d are placed. It is divided into two groups. This indicates that a plurality of display clusters 10a, 10b, 10c, and 10d may be used in combination with one or more groups according to the needs of the user.

3 illustrates an example of outputting an image in a multi-display integration method and system according to a preferred embodiment of the present invention.

For convenience of description, in FIG. 3, the first display cluster 10a and the second display cluster 10b are disposed on the virtual display 20.

When the image 30 is output, the image 30 is divided according to the position and size of the display clusters 10a and 10b disposed on the virtual display 20 and transferred to the display clusters 10a and 10b.

When the output size and position of the image 30 are set as shown in FIG. 3A, the image 30 is the first divided image 30a to be output to the first display cluster 10a as shown in FIG. 3B. ) And the second divided image 30b to be output to the second display cluster 10b. Since the second display cluster 10b is a state in which a plurality of identical display apparatuses are already combined, the second divided image 30b may have the second through second divided images 30b-1 to 2-6 as shown in FIG. To 30b-6).

Accordingly, the multi-display integration system according to the preferred embodiment of the present invention divides the input image 30 as described above for each display cluster 10a and 10b and transmits the same to the display apparatuses 10a and 10b. .

Meanwhile, the divided images 30a and 30b need to be adjusted according to the characteristics of the display clusters 10a and 10b.

For example, the first display cluster 10a has a resolution of 1280 × 960 and a size of 1280mm × 960mm, and an image 30 to be originally output is composed of 1024 × 768 pixels. Assume that the size of the first divided image 30a in the first display cluster 10a is 400mm × 600mm. In this case, in order for the first divided image 30a to be properly output from the first display cluster 10a, the number of pixels needs to be converted to match the first display cluster 10a. Accordingly, the number of pixels is adjusted to 400 × 600 pixels in order to match the output size of the first display cluster 10a of the first divided image 30a.

4 is a block diagram of a multi-display integration system according to a preferred embodiment of the present invention.

The multi-display integrated system according to the preferred embodiment of the present invention includes a display controller 40, a display application unit 50, and a user interface 48.

The display controller 40 manages the plurality of display devices 10 and performs a function of receiving and processing a command input through the user interface 48. To this end, the display controller 40 includes a main controller 42, a display device manager 44, and a virtual display setting unit 46.

The main controller 42 transmits the control signal of the display controller 40 to the display application unit 50. In addition, the main controller 42 transmits control signals to each other when the multi-display integrated system according to the present invention is connected to other devices or systems through a network so that integrated management of a plurality of systems is achieved. The display apparatuses 10 may be physically located at the same place, but may be provided separately from each other at a remote location. Also, the image to be output through the display apparatuses 10 may be stored in the multi display integrated system according to the present invention, but may be transmitted from another system through a network. In this case, the main controller 42 transmits and receives a control message so that the multi-display integrated system according to the present invention can operate in cooperation with a plurality of other systems connected by a network. The general configuration of the interconnection of multiple devices via a single computer system or network is generally known to those skilled in the art and thus further description thereof will be omitted.

The display device manager 44 stores and manages characteristics of the display apparatuses 10, such as resolution and size of the display apparatuses 10 connected to the multi-display integrated system. The characteristics of the display apparatuses 10 may be obtained by a plug and play (pnp) method, or the user may directly set the characteristics of the display apparatuses 10 through the user interface 48.

The virtual display setting unit 46 performs a function of disposing the positions of the display apparatuses 10 on the virtual display 20 according to a command of the user interface 48. The display devices 10 may be disposed on the virtual display 20 according to a user's request regardless of the physical location. In addition, the virtual display setting unit 46 has a function of determining in which region of the virtual display 20 to output an image according to a command of the user interface 48 when an image is input through the display application unit 50. Perform.

The display application unit 50 includes an image receiving unit 52 for receiving image data, an image converting unit 54 for converting the format of the image data, and an image dividing unit 56 for dividing and transmitting the image for each display apparatus 10. ), An image transmitter 58, and a control signal receiver 60 that receives a control signal from the display controller 40.

The image receiver 52 performs a function of receiving image data. The image data may be stored in the multi display integrated system according to the present invention or transmitted through a network.

The image converter 54 converts the received image data into a format that can be divided into an RGB format or a YUV format. That is, in order to output images to the plurality of display apparatuses 10, the images must be divided by each display apparatus 10, and thus, the image converter 54 may divide the received image data when the image data is not segmentable. Convert to format

The image divider 56 divides an input image according to each control device of the virtual display 20 according to a control signal of the display controller 40. An example of image segmentation is as described with reference to FIG. 3.

The image transmitter 58 transmits the divided image divided by the image divider 56 to each display apparatus 10. In transmitting the divided image, the image transmitter 58 transmits information such as a display device to which the divided image is output and a position to be output. For example, the transmission may be performed by transmitting the divided image in the form of a stream and recording information on a display device to be output in the header of the stream, information on the output position, and the like.

Meanwhile, as described above, when the characteristics of the display apparatuses 10 are different, it is necessary to adjust the size of the divided image according to the characteristics of the display apparatuses 10. To this end, either the image divider 56 or the image transmitter 58 may adjust the pixel size of the divided image according to the size at which the divided image is output. In some cases, when the image transmission unit 58 transmits the divided image, the image transmission unit 58 may also transmit the output size of the divided image, and the display apparatus 10 may adjust the output size of the divided image based on this.

The control signal receiver 60 receives a control signal from the display controller 40 and transmits the control signal to the image divider 56 and the image transmitter 58.

A method of integrating a plurality of display clusters using the multi-display integration system will be described below.

5 is a flowchart illustrating a multi-display integration method according to a preferred embodiment of the present invention.

First, the display control unit 40 recognizes the display device 10 to be integrated (S70). The display device 10 may be recognized by the display device manager 44 of the display controller 40, and may be performed by a pnp method or a user through a user interface 48.

The virtual display setting unit 46 sets the integrated display by arranging the display device 10 to be integrated and used on the virtual display 20 (S72). In this case, the virtual display setting unit 46 may integrate the entire display apparatus 10 into one group or two or more groups.

The image data is received by the image receiving unit 52 of the display application unit 50, and when the image is in a format that cannot be divided, the image converting unit 54 converts the image data into a segmentable image (S74). If only the image data in a format that can be divided by the image receiving unit 52 is received, the configuration and function of the image converting unit 54 are unnecessary.

In consideration of the configuration of the virtual display 20 and the arrangement of the display apparatus 10, the display controller 40 transmits information on the division of the input image to the display application unit 50, based on the information. The divider 56 divides the image data according to each display apparatus (S76).

The divided divided image is transmitted to the display apparatus 10 through the image transmitting unit 58, and each display apparatus 10 outputs the divided image transmitted to the self (S78).

However, when the image data is pre-stored in the multi-display integrated system and there is no delay in splitting and transmitting the image data, the above-described system and method can sufficiently achieve the desired purpose. However, the output of the divided images may not be synchronized when the image data is transmitted through the network or when there is a delay in the transmission of the image data, or when each cluster constituting the display apparatus 10 exists at a remote location. The configuration for solving such a problem is as follows.

6 is a block diagram of a multi-display integration system according to another exemplary embodiment of the present invention.

The configuration of the multi-display integrated system illustrated in FIG. 6 is substantially the same as that illustrated in FIG. 3, and the following description will focus on differences.

The display controller 40 further includes an image synchronizer 80. The image synchronizer 80 performs a function of synchronizing the split image output of the plurality of display apparatuses 10. To this end, the image synchronizer 80 transmits a synchronization message to the display apparatus 10.

In addition, the display application unit 50 may further include a frame rate adjusting unit 82.

The frame rate adjusting unit 82 monitors an image frame rate transmitted through the image transmitting unit 58 and adjusts the conversion ratio of the image converting unit 54 when the transmission rate is low, that is, received by the image receiving unit 52. Some of the frames of the image data are missed and only some of the frames are converted by the image converter 54 to save system resources.

Next, a control message and a data transmission flow between the display control unit 40, the display application unit 50, and the display device 10 will be described. In this description, it will be described that the image synchronizer 80 of the display control 40 performs image output synchronization of the display apparatus 10.

7 is a flowchart illustrating a control message and data transmission in the multi-display integration method according to an exemplary embodiment of the present invention, and FIG. 8 is a size of an image output in the multi-display integration method according to an exemplary embodiment of the present invention. B is a flowchart illustrating control message and data transmission when the position is changed.

First, a process of receiving new image data and outputting it to the multi-display integrated system according to the present invention will be described with reference to FIG. 7.

When new image data is received and is to be output using the integrated multi-display, the display application unit 50 requests a connection to the main control unit 42 of the display control unit 40 (S100).

The main control unit 42 completes the connection according to the connection request of the display application unit 50 and transmits a connection completion message REQ_RUN (S101). Preferably, the connection completion message REQ_RUN includes a unique ID of the display application unit 50 for the corresponding image data. The display application unit 50 may be understood as a kind of computer application. When a plurality of image data are processed, a unique ID is provided to distinguish the display application unit 50.

The display application unit 50 transmits an operation request message REP_RUN for outputting an image to the main control unit 42 (S102).

The main control unit 42 transmits an image synchronization request message REQ_NEW to the image synchronizing unit 80 (S103), and the image synchronizing unit 80 transmits an image synchronizing ratio message REQ_NEW to the main control unit 42. (S104).

When the preparation for image synchronization is completed, the main control unit 42 transmits an image transmission permission message REQ_START to the display application unit 50 (S105).

The display application unit 50 transmits information about an image to be output to the display apparatus 10 (S106), and transmits frame data to the display apparatus 10 (S107). Meanwhile, in this transmission, the image synchronizer 80 transmits an initial synchronization message to all the display apparatuses 10 (S108).

Thereafter, the display application unit 50 continuously transmits the frame data to the display apparatus 10 (S109). In the frame data transmission of the continuous image, only the activated display apparatus 10 that receives and outputs the divided image is output. The synchronization message is transmitted (S110).

Meanwhile, a description will be given of control messages and data transmission when the size or position of the image is changed while transmitting the image to the display apparatus 10.

The virtual display setting unit 46 recognizes when the size or position of the image that is input by the user's command through the user interface 48 is changed, and the main control unit 42 is configured to change the size or position of the image. Accordingly, the image change message SCENE_MSG is transmitted to the display application unit 50 (S111).

Accordingly, the display application unit 50 stops the transmission of the image frame data to the display apparatus 10 and transmits a response message (REP_SCENE) to the main controller 42 indicating that it is ready to reflect the changed information (S112).

Subsequently, the main controller 42 transmits a synchronization update request message REQ_UPDATE to reflect the changed size and position of the image data to the image synchronizer 80 (S113), and the image synchronizer 80 responds to the update. The message REP_UPDATE is transmitted to the main control unit 42.

The main control unit 42 transmits the image retransmission message REQ_RESTART to the display application unit 50 (S116), and the display application unit 50 transmits the image output information and the frame data to the display apparatus 10 (S117). , S118).

Meanwhile, when the size and position of the output image on the virtual display 20 change, the display cluster included in the display apparatus 10 that receives and outputs image data may change. Accordingly, since it is necessary to initialize the display apparatuses 10 outputting the existing image data, the image synchronizer 80 transmits a synchronization message to the existing activated display apparatus and the newly activated display apparatus (S119). ).

Thereafter, the display application unit 50 continuously transmits the frame data of the image to the display apparatus 10 (S120), and the image synchronizer 80 periodically transmits a synchronization message to the display apparatus in an activated state (S121). ).

The above description is merely illustrative of the technical idea of the present invention, and various modifications, changes, and substitutions may be made by those skilled in the art without departing from the essential characteristics of the present invention. will be. Accordingly, the embodiments disclosed in the present invention and the accompanying drawings are not intended to limit the technical spirit of the present invention but to describe the present invention, and the scope of the technical idea of the present invention is not limited by the embodiments and the accompanying drawings. . The protection scope of the present invention should be interpreted by the following claims, and all technical ideas within the equivalent scope should be interpreted as being included in the scope of the present invention.

1 illustrates an example of an actual physical arrangement of a plurality of display devices.

2A illustrates an example of integrating multiple display devices into one display in a multi-display integration system and method according to a preferred embodiment of the present invention.

2B illustrates an example of integrating multiple display devices into two group displays in a multi-display integration system and method according to a preferred embodiment of the present invention.

3 illustrates an example of outputting an image in a multi-display integration method and system according to a preferred embodiment of the present invention.

4 is a block diagram of a multi-display integration system according to a preferred embodiment of the present invention.

5 is a flowchart illustrating a multi-display integration method according to a preferred embodiment of the present invention.

6 is a block diagram of a multi-display integration system according to another exemplary embodiment of the present invention.

7 is a flowchart illustrating control message and data transmission in a multi-display integration method according to a preferred embodiment of the present invention.

FIG. 8 is a flowchart illustrating a control message and data transmission when a size or a position of an output image is changed in a multi-display integration method according to an exemplary embodiment of the present invention.

<Description of reference numerals for the main parts of the drawings>

10: display device

10a, 10b, 10c, 10d: display cluster

20: virtual display 30: video

30a, 30b: segmented image 40: display control unit

42: main controller 44: display device management unit

46: virtual display setting unit 48: user interface

50: display application unit 52: image receiving unit

54: image converter 56: image divider

58: image transmitter 60: control signal receiver

Claims (13)

In the display integration system integrating a plurality of display devices, A display controller configured to manage the plurality of display devices and to combine the plurality of display devices in a virtual display; And A display application unit for dividing an input image under the control of the display control unit and transmitting the divided image to the display devices; The display controller may include a main controller configured to perform a control signal transmission function and a general control function of the display controller, a display device manager connected to the display device to store and manage characteristics of the display device, and a virtual display device. A virtual display setting unit arranged on the display and reflecting the output position and size of the input image; The display application unit may include a control signal receiving unit receiving a control signal from the main control unit, an image receiving unit receiving the image data, and a display device to output the image received by the image receiving unit based on a control signal of the main control unit. And an image transmitter configured to transmit the divided image divided by the image divider and the divided image divided by the image divider to a designated display device. delete The method of claim 1, The display controller may further include an image synchronizer configured to control image output synchronization of the display apparatuses. The method of claim 1, And the virtual display setting unit sets the display position of the display device to the virtual display by setting the position of each reference point of the display device with respect to the reference point of the virtual display. The method of claim 1. The display devices may be physically located at the same location or remotely located, and the data of the image to be output is stored in itself or transmitted through a network. delete The method according to any one of claims 1 or 3 to 5, And the display application unit further comprises an image converting unit converting the image received from the image receiving unit into a format that is not divisible. The method according to any one of claims 1 or 3 to 5, And the pixel size is adjusted according to the resolution and size of the display device to be output. The method according to any one of claims 1 or 3 to 5, The display application unit may further include a frame rate adjusting unit for monitoring the frame rate of the image transmitted through the image transmission unit to adjust the image frame ratio converted by the image conversion unit according to the transmitted frame rate. Multi display integrated system. In the display integration method of integrating a plurality of display devices, (a) recognizing the plurality of display devices; (b) the display of the display device by setting the position of each reference point of the display device relative to the reference point of the virtual display, in order to set the integrated display by placing the plurality of display devices on the virtual display according to a user's request; Setting a location in the virtual display; (c) setting a size and a position of an image to be output on the virtual display; (d) receiving an image and dividing the image into a divided image according to the size and position of the image to be output set in the virtual display; And (e) transmitting the divided image to a designated display device, and transmitting a synchronization message to the display device for synchronizing image output at each display device; Multi-display integration method comprising a. delete delete The method of claim 10, If the size or position of the image on the virtual display is changed, (f1) stopping image data transmission to the display device; (f2) transmitting a synchronization message to an existing activated display device and a newly activated display device according to an image output synchronization update request and response to reflect the size or position variation of the image; And (f3) repeating steps (d) to (e) Multi-display integration method characterized in that it further comprises.

Images