KR102016048B1 - Electronical chalkboard system and control method thereof, and display apparatus - Google Patents

Abstract

The present invention provides an electronic blackboard, a control method thereof, and a display device for easily moving and displaying an image. The electronic blackboard system includes a plurality of display units; A pointing device which indicates one of the plurality of display units and senses light source information of the displayed display unit; An image processor which processes an image to be displayed on the display unit; A controller configured to select one of the plurality of display units indicated by the pointing device based on the detected light source information, and to control the image processor to display an image corresponding to the instruction on the selected display unit. Characterized in that. This makes it possible to provide a more efficient and convenient electronic blackboard, a control method thereof, and a display device by easily moving the image by simple operation of the pointing device.

Description

Electronic blackboard system and control method, and display device {ELECTRONICAL CHALKBOARD SYSTEM AND CONTROL METHOD THEREOF, AND DISPLAY APPARATUS}

The present invention relates to an electronic blackboard system, a control method thereof, and a display device. In detail, the present invention relates to an electronic blackboard system having a plurality of display panels. The present invention relates to an electronic blackboard system having a structure for providing a service environment, a control method thereof, and a display device.

A display device is a device that processes an image signal / image data input from outside or stored therein by various processes and displays the image on a display panel or a screen. , Portable media player, etc. are implemented in various ways. According to the development of the technology, the display apparatus has been added and reinforced with various functions. For example, the display apparatus may be implemented as an electronic blackboard system having a pointing device capable of touching a display panel or scanning a light beam.

The electronic blackboard system detects a trajectory formed by the pointing device on the panel or the screen, and displays an image corresponding to the detected trajectory on the corresponding panel or the screen. The electronic blackboard system is implemented in various ways, for example, a display panel is implemented as a pressure-sensitive touch screen to sense pressure on the panel by the pointing device, and an image formed on the screen by a light beam projected from the pointing device. There is a method of sensing the coordinates of light with a charge coupled device (CCD) camera. In addition, when the display panel is a plasma display panel (PDP), it is possible to configure an electronic blackboard system using an infrared signal discharged on the panel and a pointing device for detecting the same. However, when the presenter presents the presentation using an electronic blackboard system composed of a plurality of display panels, there is a case where a display panel is changed while explaining an image prepared in advance. In this case, the person assisting the presentation changes the display panel to display an image through the operation of the computer, or there is an inconvenience in that the explainer moves directly to change the display panel.

An object of the present invention is to solve the problems of the above-described control method of the electronic blackboard system, by using the electronic blackboard system to be able to move and display the image easily, more efficient and convenient electronic blackboard and its control method and To provide a display device.

Electronic blackboard system for achieving the above object of the present invention, a plurality of display unit; A pointing device which indicates one of the plurality of display units and senses light source information of the displayed display unit; An image processor which processes an image to be displayed on the display unit; A controller configured to select one of the plurality of display units indicated by the pointing device based on the detected light source information, and to control the image processor to display an image corresponding to the instruction on the selected display unit. It can be achieved by an electronic blackboard system characterized in that.

The light source information may include at least one of a light source frequency and a light source pattern of the display unit.

The pointing device may determine the display unit according to the light source frequency, and transmit the determined display unit information to the controller.

Here, the controller may calculate coordinate information of the image based on the light source pattern of an indication position of the display unit detected by the pointing device.

The light source pattern may be a pattern detected by infrared rays.

Here, the pointing device may be selectable by touching the display unit.

In addition, the pointing device may have an operation button provided to be selectable.

Here, the operation button is provided to be movable up, down, left, and right, and the control unit selects the display unit on which the image is displayed from the plurality of display units by the operation button, and the display unit selected by the operation button The image may be displayed.

The controller may highlight the display unit instructed by the pointing device.

Herein, the controller may highlight the display unit selected by the pointing device.

On the other hand, a display device for achieving the problem of the present invention, a plurality of display unit; A communication unit instructing any one of the plurality of display units and communicating with a pointing device that senses light source information of the indicated display unit; An image processor which processes an image to be displayed on the display unit; A controller configured to select one of the plurality of display units indicated by the pointing device based on the detected light source information, and to control the image processor to display an image corresponding to the instruction on the selected display unit. It is achieved by a display device characterized in that.

The light source information may include at least one of a light source frequency and a light source pattern of the display panel.

The controller may control the display unit based on the determined display unit information of the pointing device that determines the display unit according to the light source frequency.

The controller may be configured to calculate coordinate information of the image based on the light source pattern at an indication position of the display unit detected by the pointing device.

The light source pattern may be a pattern detected by infrared rays.

The control unit may control the display unit based on information of the pointing device selected by touching the display unit.

The control unit may control the display unit based on information of the pointing device having an operation button provided to be selectable.

The control unit may select the display unit on which the image is displayed from the plurality of display units by the operation buttons provided to move up, down, left, and right, and display the image on the display unit selected by the operation button. have.

The controller may be configured to highlight the display unit based on information of the pointing device indicating the display unit.

The controller may be configured to highlight the display unit based on information of the pointing device selecting the display unit.

On the other hand, the control method of the electronic blackboard system for achieving the problem of the present invention, the pointing device pointing to any one of a plurality of display units; Sensing light source information of the indicated display panel; Displaying an image on the indicated display unit; Selecting one of the plurality of display units based on the detected light source information, and displaying an image corresponding to the instruction on the selected display panel on the selected display panel; Can be achieved by

The light source information may include at least one of a light source frequency and a light source pattern of the display unit.

The sensing of the light source information of the displayed display panel includes:

The method may include determining the display unit according to the light source frequency.

The displaying of the image of the display unit instructed on the selected display panel may further include calculating coordinate information of the image based on the light source pattern of an indication position of the display unit detected by the pointing device. Can be.

The displaying of the image of the display unit instructed on the selected display panel may include selecting the display unit on which the image is displayed from the plurality of display units on an operation button of the pointing device provided to be movable up, down, left, and right, and And displaying the image on the display unit selected by a button.

Here, the detecting of the light source information of the indicated display panel may include:

And highlighting the display unit indicated by the pointing device.

The sensing of the light source information of the displayed display panel includes:

And highlighting the display unit selected by the pointing device.

According to the present invention, by using an electronic blackboard having a plurality of display units, the image can be easily moved by a simple operation, thereby providing an efficient and convenient electronic blackboard, a control method thereof, and a display device.

1 is an illustration of an electronic blackboard system according to the present invention;
FIG. 2 is a block diagram illustrating a display device in the electronic blackboard system of FIG. 1;
3 is a block diagram illustrating a display unit in the display device of FIG. 2;
4 is a cross-sectional view of main parts of one display unit of the display device of FIG. 2;
5 is an enlarged plan view of one pixel in the display unit of FIG. 4;
6 is a block diagram illustrating a pointing device in the copyboard system of FIG. 1;
7 is an exemplary diagram illustrating a method of displaying an image corresponding to an instruction on a corresponding display unit as a pointing device instructs a display panel in the electronic blackboard system of FIG. 1.
8 is an exemplary view showing a pointing device according to an embodiment of the present invention;
9 is an exemplary diagram illustrating a method of moving and displaying an image of a display unit by an operation button of a pointing device in the electronic blackboard system of FIG. 1;
10 is an exemplary view illustrating that a display unit is highlighted by a display unit instruction of a pointing device according to an embodiment of the present invention;
11 is an exemplary view illustrating that a display unit is highlighted by selecting a display unit of a pointing device according to an embodiment of the present invention;
12 is an exemplary diagram illustrating a method of displaying an image corresponding to an instruction on the same coordinates as the instructed display unit of the corresponding display unit as the pointing device instructs the display panel according to an embodiment of the present invention;
FIG. 13 is a control flowchart illustrating a control method of a pointing device in the electronic blackboard system of FIG. 1.
FIG. 14 is a control flowchart of a control method of a display apparatus in the electronic blackboard system of FIG. 1.

Hereinafter, with reference to the accompanying drawings will be described in detail the present invention. For convenience of description, parts not directly related to the present invention are omitted, and like reference numerals designate like elements throughout the specification.

1 is an exemplary view of an electronic blackboard system 1 according to the present invention, which will be described with reference to FIG. 1.

The electronic blackboard system 1 according to an embodiment of the present invention includes a display apparatus 100 for displaying an image and a pointing device 200 for indicating a predetermined position of the display 130. The display apparatus 100 may be implemented as a TV or a computer monitor including the display 130, and a specific implementation method is not limited. However, in the display apparatus 100 according to an exemplary embodiment, the display unit 130 including the plurality of display units 131 to 139 is applied to implement a large screen. The plurality of display units 131 to 139 are arranged parallel to each other in the matrix direction along the wall surface or standing on the ground.

Although the display 130 is represented as including nine display units 131 to 139 in the drawing, this is only one example, and the number of the display units 131 to 139 may be variously changed. Here, each display unit 131 to 139 has a plate surface indicated by the pointing device 200.

In addition, according to this drawing, the display apparatus 100 is represented as a configuration in which the image processing unit 120 and the display unit 130 are separated from each other. For example, the image processor 120 may be implemented as a computer body such as a desktop or a laptop. In addition, the image processing unit 120 is equipped with a communication unit 140 in the form of a dongle or module to communicate with the pointing device 200.

However, this may be changed when the device is designed, and the image processing unit 120 and the display 130 may be accommodated in one housing (not shown). In this case, the device communication unit 140 may be embedded in the housing (not shown).

The pointing device 200 is gripped by the user to indicate the fifth display unit 135 of any one of the plurality of display units 131 to 139. In this case, the pointing device 200 detects light source information on the display unit 135.

The pointing device 200 wirelessly transmits the detected light source information to the image processor 120 through the communication unit 140. In this case, the image processor 120 may display the corresponding image on the display unit 135 instructed by the pointing device 200 among the plurality of display units 131 to 139. In addition, the pointing device may determine the display unit 135 by sensing the light source information.

Accordingly, when the user grips the pointing device 200 and instructs and selects a predetermined position on the display units 131 to 139, the image corresponding to the corresponding position is displayed by the image processing unit 120 by the image processor 120. ) Is displayed.

Hereinafter, the specific structure of the electronic blackboard system 1 is demonstrated with reference to FIG. 2 is a schematic block diagram of the display apparatus 100 of the copyboard system 1.

As shown in FIG. 2, the display apparatus 100 according to the present exemplary embodiment includes an image receiver 110 that receives an image signal / image data transmitted from the outside, and an image signal received from the image receiver 110. An image processing unit 120 for processing according to a set image processing process, a display unit 130 including a plurality of display units 131 to 139 and displaying an image signal processed by the image processing unit 120, and a pointing device. The communication unit 140 communicates with the 200, a user input unit 150 for outputting a preset command by being operated by a user, and a control unit 160 for controlling overall operations of the display apparatus 100.

The image receiving unit 110 receives the image signal / image data by wire or wirelessly and transmits the image signal / image data to the image processing unit 120. The image receiving unit 110 may be implemented in various ways corresponding to the specification of the image signal to be received. For example, the image receiver 110 may include a radio frequency (RF) signal, composite / component video, super video, SCART, high definition multimedia interface (HDMI), and DisplayPort. , A video signal according to a unified display interface (UDI) or a wireless HD standard may be received.

The image processor 120 performs various preset image processing processes on the image signal, and outputs the image signal subjected to the process to the display unit 130 so that the image is displayed. The type of processes performed by the image processor 120 is not limited. For example, decoding, de-interlacing, frame refresh rate conversion, and scaling corresponding to various image formats may be performed. scaling, noise reduction for improving image quality, detail enhancement, and the like.

The image processor 120 may be implemented as a computer body including a main board (not shown) equipped with a CPU (not shown), a graphics card (not shown), a storage medium (not shown), and other option cards (not shown). However, this is only one implementation example and is not a limitation.

The display unit 130 includes a plurality of display units 131 to 139. The display units 131 to 139 display an image based on the image signal output from the image processor 120 on the plate surface. The display units 131 to 139 according to the present embodiment are implemented as liquid crystal panels. The detailed configuration of the display unit 130 will be described later.

The communicator 140 wirelessly communicates with the pointing device 200, and transmits data received from the pointing device 200 to the controller 160. The communication unit 140 may receive data based on an RF communication standard such as, for example, a zigbee method, and receive data from the pointing device 200 through a specific frequency band, that is, a preset wireless communication channel.

The user input unit 150 transmits various preset control commands or information to the controller 170 according to a user's manipulation and input. The user input unit 150 may be implemented as a menu key and an input panel installed outside the display apparatus 100, or a remote controller separated from the display apparatus 100. Alternatively, the user input unit 150 may be integrated with the display unit 130. That is, when the display units 131 to 139 are touch screens, the user may transmit a preset command to the controller 160 through an input menu (not shown) displayed on the display units 131 to 139. have.

When the pointing device 200 instructs any one of the display units 131 to 139, the controller 160 receives the data according to the instruction result from the pointing device 200 through the communication unit 140. The image processor 120 is controlled to display an image according to the control. For example, the controller 160 determines which display unit 131 to 139 the pointing device 200 instructs among the plurality of display units 131 to 139 according to the received data from the pointing device 200. In this case, it is determined which coordinate image of the particular display units 131 to 139 is indicated. The controller 160 controls an image to be displayed on the display units 131 to 139 according to the determination result.

Hereinafter, a detailed configuration of the display unit 130 will be described with reference to FIG. 3. 3 is a block diagram illustrating the display 130.

The display units 131 to 139 according to the present exemplary embodiment are implemented as liquid crystal panels. Since the plurality of display units 131 to 139 are non-light emitting devices that do not generate light by themselves, the display unit 130 may include a plurality of display units 131 to display an image on each of the display units 131 to 139. And a plurality of backlight units 131a to 139a for generating and supplying light with respect to the light emitting elements 139 to 139, respectively.

The backlight units 131a to 139a may include light sources (not shown) that generate light, light guide plates (not shown), and reflective sheets (not shown) that change the direction and characteristics of light generated from the light sources (not shown). Not shown). In particular, the light source (not shown) may be implemented as, for example, a light-emitting diode (LED), and controlled according to a pulse-width modulation (PWM) scheme to generate light and change the brightness of the light. That is, driving of the backlight units 131a to 139a means driving of a light source (not shown) included in the backlight units 131a to 139a.

In the driving of the backlight units 131a to 139a, the brightness of the light supplied to the display units 131 to 139 by the backlight units 131a to 139 is controlled by controlling the width of the duty ratio by PWM control. The level is adjusted. However, the light source frequencies of the backlight units 131a to 139a according to the PWM control do not affect the brightness level of the light. That is, even if the light source frequencies are set differently for each of the backlight units 131a to 139a, the luminance level of the light generated by each of the backlight units 131a to 139a is the same and the image displayed on each display unit 131 to 139 is different. Luminance deviation does not occur between them.

Accordingly, if the light source frequencies of the backlight units 131a to 139a corresponding to the plurality of display units 131 to 139 are set differently from each other, and the light source frequencies of any one of the backlight units 131a to 139a are detected, One of the display units 131 to 139 may be specified among the plurality of display panel panels 131 to 139 based on the detected light source frequency.

Based on this principle, the display units 131 to 139 instructed by the pointing device 200 may be specified, which will be described later.

Hereinafter, the display unit 300 according to the present embodiment will be described with reference to FIG. 4. 4 is a cross-sectional view of main parts of the display unit 300.

The display unit 300 of the figure is applied to the same structure as each of the display unit (131 to 139) of the previous figure, the structure of the figure is only one example of the structure that can be implemented of various liquid crystal panel, it is implemented as an actual product If the display unit 300 is not limited by the structure according to the present example. Within the scope of the present invention, the structure of the display unit 300 may be applied to various design changes.

As shown in FIG. 4, the display unit 300 includes an upper substrate 310, a lower substrate 320 disposed to face the upper substrate 310, and an upper substrate 310 and a lower substrate 320. Stacked on the upper and lower sides of the liquid crystal layer 330, the color filter layer 340 interposed between the liquid crystal layer 330 and the lower substrate 320, and the upper substrate 310 and the lower substrate 320, respectively. The polarizing films 350 and 360 and the reflection suppressing film 370 stacked on the upper polarizing film 350 are included.

The upper substrate 310 and the lower substrate 320 are transparent substrates disposed to face each other at predetermined intervals along the light traveling direction. The upper substrate 310 and the lower substrate 320 are implemented with a glass or plastic substrate. The upper substrate 310 and the lower substrate 320 require different characteristics according to the driving method of the liquid crystal layer 330. For example, if the driving method of the liquid crystal layer 330 is a passive matrix method. Soda lime glass is used, and in the case of an active matrix, alkali free glass and borosilicate glass can be used.

The liquid crystal layer 330 is positioned between the upper substrate 310 and the lower substrate 320 and adjusts light transmission by changing the arrangement of the liquid crystals according to the driving signal applied thereto. Here, a conductive indium tin oxide (ITO) or indium zinc oxide (IZO) for transmitting a driving signal between the upper substrate 310 and the liquid crystal layer 330, or between the lower substrate 320 and the liquid crystal layer 330. An electrode layer (not shown) including a transparent material may be formed.

Normal liquids are not regular in the direction and arrangement of molecules, but liquid crystals resemble liquid phases with some degree of regularity. For example, when heated and melted, there is a solid that becomes a liquid phase exhibiting anisotropy such as birefringence. Liquid crystals have optical characteristics such as birefringence and color change. Regularity is a property of crystals, and since the phase of a material is similar to liquid, it is called liquid crystal in the sense of a material having both properties. When voltage is applied to these liquid crystals, the arrangement of molecules changes, thereby changing the optical properties.

Liquid crystals of the liquid crystal layer 330 may be classified into nematic, cholesteric, smectice, and ferroelectric liquid crystals according to molecular arrangement.

The color filter layer 340 is interposed between the liquid crystal layer 330 and the lower substrate 320 or between the liquid crystal layer 330 and the upper substrate 310 and light of a predetermined color is applied to each pixel of the liquid crystal layer 330. The incident light is filtered to be emitted.

The polarizing films 350 and 360 change unpolarized light into light polarized in a specific direction, and transmit only light that vibrates in a specific direction among incident light, and absorbs light that vibrates in other directions. The polarizing films 350 and 360 adjust the intensity of the light transmitted according to the degree of rotation of the polarization axis of the incident light and enable the grayscale to be expressed, thereby visually confirming the image on the display unit 300.

The polarizing films 350 and 360 according to the present exemplary embodiment are expressed as being laminated on the upper side of the upper substrate 310 and the lower side of the lower substrate 320, respectively. It can also be installed only.

The reflection suppression film 370 is stacked on the top layer of the display panel 300. The reflection suppressing film 370 diffusely reflects the surface reflected light, thereby reducing surface reflection due to external light. The antireflection film 370 may be implemented as an anti-glare film or an anti-reflection film. Alternatively, the diffuse reflection treatment may be performed by spraying silicon particles on the polarizing film 350 without applying the reflection suppression film 170 to the display unit 300.

5 is an enlarged plan view of one pixel P of the plurality of pixels P in the color filter layer 340.

As shown in FIG. 5, one pixel P includes three subpixels P1, P2, and P3 respectively corresponding to three colors of a plurality of colors, for example, RGB. That is, the pixel P may be a red subpixel P1 corresponding to a light emission area of red color, a green subpixel P2 corresponding to a light emission area of a green color, and blue. ) Blue sub-pixel P3 corresponding to the light exit area of the color.

The color filter layer 340 converts light incident on the display unit 300 into RGB color and transmits the light to the liquid crystal layer 330. Each pixel P performs color-specific filtering on the subpixels P1, P2, and P3 corresponding to each of the RGB colors. Thus, when light passes through each of the subpixels P1, P2, and P3, the color filter layer 340 emits light of different colors for each subpixel.

Here, on the color filter layer 340 corresponding to each subpixel (P1, P2, P3), a mask for distinguishing between the pixels (P) or subpixels (P1, P2, P3) in the pixel (P) ) M, frame M or grating M are stacked. Various preset patterns (not shown) may be formed on the mask M. FIG. This pattern (not shown) is engraved or embossed on the mask M, protrudes from the mask M into the subpixels P1, P2, P3, or is parallel to the light exit direction from the mask M. It may be formed on the mask M in a variety of forms, such as protruding in the direction.

If a pattern (not shown) is formed for each pixel P in the display unit 300 differently for each mask M, the pattern (not shown) for the mask M of one pixel P is not shown. If the detection of time, the position of the pixel (P) in the display panel 300 can be specified based on the detected pattern (not shown).

Based on this principle, the coordinate information of the touch position touched by the pointing device 200 in the specified display unit 300 may be calculated, which will be described later.

Meanwhile, although the above-described drawings describe a case in which a pattern (not shown) is formed in the mask M on the subpixels P1, P2, and P3, the spirit of the present invention is not limited thereto. For example, a pattern layer (not shown) in which a pattern (not shown) is formed corresponding to each pixel P may be stacked on the upper side of the upper substrate 310 over the entire display surface of the display 300.

Hereinafter, the configuration of the pointing device 200 according to the present embodiment will be described in detail with reference to FIG. 6. 6 is a block diagram illustrating the pointing device 200.

As shown in FIG. 6, the pointing device 200 includes a communication unit 210 communicating with the display apparatus 100 and a light source frequency sensor for determining the display units 131 to 139 touched by the pointing device 200. The pointing device according to the detection result of the light source pattern sensor 230 and the light source frequency sensor 220 and the light source pattern sensor 230 for calculating the coordinate information of the touch position touched by the pointing device 200. And a control unit 240 for determining the display units 131 to 139 indicated by the 200 and calculating coordinate information of the indication position.

The communication unit 210 according to a preset communication standard between the display apparatus 100 and the pointing device 200. The predetermined data is transmitted to the display apparatus 100 under the control of the controller 240.

The light source frequency sensor 220 provides a backlight unit for supplying light to the display units 131 to 139 (refer to FIG. 3) when the pointing device 200 instructs any one of the plurality of display units 131 to 139. (131a to 139a, see Fig. 3) to detect the light source frequency. To this end, the light source frequency sensor 220 may be implemented as a photosensor or a luminance sensor for detecting the blinking of light.

The light source pattern sensor 230 detects a pattern (not shown) corresponding to an instruction position on the display units 131 to 139 when the pointing device 200 instructs any one of the plurality of display units 131 to 139. do. Here, the pattern (not shown) has been described with reference to FIG. 5. The light source pattern sensor 230 includes an infrared sensor so that the sensing operation is not interfered by the light passing through the display units 131 to 139, and the light source pattern sensor 230 detects the shadow formed by the corresponding pattern (not shown) in the infrared position. A corresponding pattern (not shown) is detected.

The controller 240 determines the display units 131 to 139 touched by the pointing device 200 from among the plurality of display units 131 to 139 based on the detection result of the light source frequency sensor 220. The controller 240 determines coordinate information regarding the position of the pointing device 200 within the displays 131 to 139 indicated by the pointing device 200 based on the detection result of the light source pattern sensor.

For example, when the pointing device 200 instructs the first panel 131, the control unit 240 calculates and calculates the light source frequency according to the blinking period of the light measured by the light source frequency sensor 220. It may be determined that the light source frequency corresponds to the first backlight unit 131a (see FIG. 3). This determination may be obtained from a light source frequency previously stored in the pointing device 200 and a correspondence table (not shown) of the backlight units 131a to 139a. As described above, according to the specification of the first backlight unit 131a, the controller 240 may determine that the pointing device 200 instructs the first display unit panel 131.

When the first display unit 131 is specified among the plurality of display units 131 to 139, the controller 240 determines that a pattern (not shown) detected by the light source pattern sensor 230 is located on the first display unit 131. Determine which coordinates correspond. Here, the determination may be obtained from a pattern (not shown) previously stored in the pointing device 200 and a correspondence table (not shown) of coordinates.

The controller 240 transmits the identification information and the coordinate information of the first display unit 131 thus obtained to the display apparatus 100.

On the other hand, the control unit 160 (see FIG. 2) of the display apparatus 100 is based on the identification information and the coordinate information received from the pointing device 200, and the display unit 131 to 139 of the plurality of display units 131 to 139. It may be determined whether or not the corresponding video is displayed at which position.

In the present exemplary embodiment, the case in which the pointing device 200 transmits identification information for identifying the display units 131 to 139 to the display apparatus 100 is described, but the scope of the present invention is not limited thereto. For example, the pointing device 200 transmits the light source frequency information detected by the light source frequency sensor 220 to the display apparatus 100, and the display unit 131 based on the light source frequency information received by the controller 160. 139) can also be configured.

As such, when an image corresponding to an instruction position of the pointing device 200 is displayed on any one of the display units 131 to 139, it is necessary to change the image characteristic of the image.

FIG. 7 illustrates a method of displaying an image 420 corresponding to an instruction on the display unit 136 as the pointing device 200 instructs the display unit 136 in the electronic blackboard system 1 of FIG. 1. It is an illustration.

As illustrated in FIG. 7, when a user grips the pointing device 200 and instructs the first display unit 131, the image corresponding to the operation of indicating and selecting the pointing device 200 according to the structure described above ( 410 is displayed on the first display unit 131. In this case, the displayed image 410 may be implemented as an application.

If the user moves to explain the image 410 displayed on the first display unit 131 in front of the sixth display panel 136, the image 410 is displayed on the sixth display unit 136 with the help of an assistant. ) Or the user must move to the front of the first display unit 131 to explain the inconvenience. In this case, if the user can directly move the image 410 of the first display unit 131 to the sixth display unit 136, it may solve the inconvenience of the user who is explaining.

The pointing device 200 instructs and selects the first display unit 131 to display an image 410 corresponding to the instruction on the first display unit 410. The user moves to explain and instructs the pointing device 200 to select the first display unit 131 in front of the sixth display unit 136. The pointing device 200 detects the light source information of the indicated first display unit 131 and transmits it to the communication unit, and the communication unit transmits the received light source information of the first display unit 131 to the controller 160. Accordingly, the controller 160 determines the first display unit 131 based on the light source information of the first display unit 131 and calculates the position information of the image 410.

Thereafter, the user instructs and selects the pointing device 200 by pointing to the sixth display unit 136 (A). Then, the image 410 displayed on the first display unit 131 is displayed on the sixth display unit 136 (B). In this case, the image 410 of the first display panel 131 may be displayed or may not be displayed. This may be implemented by the operation of the pointing device 200 or by a predetermined setting.

If the sixth display unit 136 already displays another image (not shown). In this case, the image 420 moved by the user may be preferentially displayed on the sixth display unit 136. In addition, if another image (not shown) other than the image 410 displayed on the first display unit 131 is displayed, all of the images displayed on the first display unit 131 are displayed on the sixth display unit 136. Can be displayed.

8 has an operation button 250 provided to be selectable as shown in an exemplary view showing a pointing device 200 according to an embodiment of the present invention. Images 410 to 480 displayed on the display 130 may be moved through the operation button 250. The operation button 250 includes four moving buttons 251 to 254 and a selection button 255. The move buttons 251 to 254 move the display units 131 to 139, and the select button 255 selects the display units 131 to 139.

FIG. 9 is an exemplary diagram illustrating a method of moving and displaying an image 430 of the display unit 131 by the operation button 250 of the pointing device 200 in the electronic blackboard system 1 of FIG. 1. The image 430 is moved using the pointing device 200 having the operation button 250 to be described later.

As shown in FIG. 9, the first display unit 131 is instructed and the selection button 255 of the pointing device 200 having the operation button 25 is pressed to select the first display unit 131. Thereafter, by pressing the right movement button 252 among the operation buttons 250, the image 430 of the first display unit 131 may be moved to the second display unit 132 and displayed. Accordingly, the image 440 is displayed on the second display unit 132.

In addition, the first display unit 131 is instructed and the selection button 255 of the pointing device 200 having the operation button 25 is pressed to select the first display unit 131. Thereafter, the lower movement button 253 of the operation button 250 may be pressed to move and display the image 430 of the first display unit 131 to the second display unit 132. Accordingly, the image 450 is displayed on the second display unit 132.

As such, the image 430 displayed on the display unit 131 may be moved using the operation button 250 of the pointing device 200.

10 is an exemplary view illustrating that the display unit 132 is highlighted by the display unit 132 instruction of the pointing device 200 according to an exemplary embodiment of the present invention.

The pointing device 200 instructs any one of the display unit 132 so that the indicated display unit 132 is highlighted. In this way, the people listening to the description will pay more attention to the user's description and will focus on the highlighted second display unit 132 so that the user can more efficiently receive the contents described.

FIG. 11 is an exemplary diagram illustrating that the display 135 is highlighted by selecting the display 135 of the pointing device 200 according to an exemplary embodiment.

In FIG. 11, an image 450 is displayed on the fifth display unit 135, and the pointing device 200 selects and highlights the fifth display unit 135. For example, if a description is made in the first display unit 131 and the image 400 of the first display unit 131 is moved to the fifth display unit 135, the people who are listening to the explanation are moved. You may not be able to concentrate on it. In this case, by highlighting the fifth display unit 135 in which the image 400 is moved, people who are listening to the description may focus on the description with more concentration.

FIG. 12 illustrates an image 480 corresponding to an instruction on the display unit 135 at the same coordinates as the display unit 131 as the pointing device 200 indicates the display 135 according to an exemplary embodiment. It is an exemplary view showing a method of displaying).

12, as the pointing device 200 instructs the display unit 135 as shown in FIG. 7, the image corresponding to the instruction is displayed on the display unit 135. However, the image 470 is not displayed on the entire screen of the display unit 131, but is displayed in a partial region.

When the user grips the pointing device 200 and instructs the first display unit 131, the image 470 corresponding to the pointing and selecting operation of the pointing device 200 is displayed according to the above-described structure. 131). The image 470 is activated in the partial region, that is, the upper left region, not the entire region of the screen of the first display unit 131. The user may move and describe the image through the image 470 displayed on the first display unit 131 in front of the fifth display unit 135. The user moves to explain and selects the first display unit 131 by pointing the pointing device 200 in front of the fifth display unit 135. The pointing device 200 detects the light source information of the indicated first display unit 131 and transmits it to the communication unit, and the communication unit transmits the received light source information of the first display unit 131 to the controller 160. Accordingly, the controller 160 determines the first display unit 131 based on the light source information of the first display unit 131 and calculates the position information of the image 410. Thereafter, the user instructs and selects the pointing device 200 by indicating the fifth display unit 135 (C). Then, the image 410 displayed on the first display unit 131 is displayed on the coordinate information calculated on the fifth display unit 135 (D). As illustrated, the image 480 is displayed on the upper left side of the fifth display unit 135. The user may explain while taking notes by using the right space where the image 480 is not displayed.

Hereinafter, a control method of the pointing device 200 according to the present embodiment will be described with reference to FIG. 13. 13 is a control flowchart showing this process.

As shown in FIG. 13, the pointing device 200 indicates any one of the plurality of display units (S100).

The pointing device 200 detects a light source frequency of the backlight unit for supplying light to the touched display unit (S110), and determines the indicated display unit according to the detected light source frequency (S120).

The pointing device 200 detects a pattern formed at the indicated position in the display unit (S130), and calculates coordinate information of the indicated position based on the detected pattern (S140).

The pointing device 200 transmits the identification information of the determined display unit and the coordinate information of the indication position to the display apparatus 100 (S150).

Hereinafter, a control method of the display apparatus 100 according to the present embodiment will be described with reference to FIG. 14. 14 is a control flowchart illustrating this process.

As illustrated in FIG. 14, an image is displayed on any one display unit (S200). The display apparatus 100 receives identification information and coordinate information from the pointing device 200 (S210).

The display apparatus 100 determines a display unit corresponding to the identification information (S220), and displays the image corresponding to the coordinate information on the display unit (S230).

As described above, according to the present exemplary embodiment, the display units 131 to 139 which are indicated by the pointing device 200 among the plurality of display units 131 to 139 are determined and determined. Based on the reference, any one of the plurality of display units 131 to 139 is selected, and an image is displayed on the selected display units 131 to 139. Here, the "identified display units 131 to 139" and the "selected display units 131 to 139" may be the same display units or different display units depending on the manner in which the system or apparatus is designed. In the case of a different display unit, the " selected display units 131 to 139 "

As described above, due to the contents of the present invention, the user moves in the electronic blackboard system 1 including the plurality of display units 131 to 139, and instructs the display unit 130 to point to the pointing device 200. By being able to move the image, it is possible to easily move the image without moving.

While the embodiments of the present invention have been shown and described so far, those skilled in the art will be able to modify the embodiments without departing from the spirit or spirit of the invention. Accordingly, the scope of the invention should not be limited to the embodiments described thus far but rather by the appended claims and their equivalents.

1: electronic blackboard system 100: display device
110: image receiving unit 120: image processing unit
130: display unit 140: communication unit
150: user input unit 160: control unit
200: pointing device unit 210: device communication unit
220: light source frequency sensor 230: light source pattern sensor
240: device control unit

Claims (27)

In the electronic blackboard system,
A plurality of display units;
A pointing device for indicating a first display unit of the plurality of display units and sensing light source information of the indicated first display unit;
An image processor configured to process an image to be displayed on the first display unit;
Selecting an image displayed on the first display unit indicated by the pointing device from the plurality of display units based on the detected light source information,
Among the plurality of display units, a second display unit indicated by the pointing device is selected after the image displayed on the first display unit is selected.
And a controller for controlling the image processor to display the image displayed on the selected first display unit in the second display unit. The method of claim 1,
And the light source information includes at least one of a light source frequency and a light source pattern of the first display unit. The method of claim 2,
And the pointing device identifies the first display unit according to the light source frequency, and transfers the identified first display unit information to the controller. The method of claim 2,
And the control unit is configured to calculate coordinate information of the image based on the light source pattern at an instruction position of the first display unit detected by the pointing device. The method of claim 2,
The light source pattern is an electronic blackboard system, characterized in that the pattern is detected by the infrared. The method of claim 1,
And the pointing device is provided to be selectable by touching the second display unit. The method of claim 1,
And the pointing device has an operation button provided to be selectable. The method of claim 7, wherein
The operation button is provided to be movable up, down, left and right,
The control unit may select the first display unit displaying the image from the plurality of display units by the operation button and control the electronic blackboard system to display the image on the second display unit selected by the operation button. . The method of claim 1,
And the controller is configured to control the first display unit instructed by the pointing device to be highlighted. The method of claim 1,
And the control unit controls the second display unit selected by the pointing device to be highlighted. In the display device,
A plurality of display units;
A communication unit instructing a first display unit of the plurality of display units, and communicating with a pointing device that senses light source information of the first display unit;
An image processor which processes an image to be displayed on the first display unit;
Selecting an image displayed on the first display unit indicated by the pointing device from the plurality of display units based on the detected light source information,
Among the plurality of display units, a second display unit indicated by the pointing device is selected after the image displayed on the first display unit is selected.
And a controller configured to control the image processor to display the image displayed on the selected first display unit to the second display unit. The method of claim 11,
The light source information includes at least one of a light source frequency and a light source pattern of the first display panel. The method of claim 12,
And the control unit controls the first display unit based on the identified first display unit information of the pointing device that identifies the first display unit according to the light source frequency. The method of claim 12,
And the control unit is configured to calculate coordinate information of the image based on the light source pattern at an instruction position of the first display unit detected by the pointing device. The method of claim 12,
The light source pattern is a display device, characterized in that the pattern detected by the infrared. The method of claim 11,
And the control unit controls the second display unit based on information of the pointing device selected by touching the second display unit. The method of claim 11,
And the control unit controls the first display unit based on information of the pointing device having an operation button provided to be selectable. The method of claim 17,
The control unit selects the first display unit on which the image is displayed from the plurality of display units by the operation buttons provided to move up, down, left and right, and displays the image on the second display unit selected by the operation button. Display device to control. The method of claim 11,
And the control unit controls to highlight the first display unit based on information of the pointing device instructing the first display unit. The method of claim 11,
And the control unit controls to highlight the second display unit based on the information of the pointing device selecting the second display unit. In the control method of the electronic blackboard system,
Pointing the pointing device to a first display unit displaying an image of the plurality of display units;
Sensing light source information of the indicated first display unit;
Selecting an image displayed on a first display unit from the plurality of display units based on the detected light source information;
Selecting a second display unit indicated by the pointing device after selecting an image displayed on the first display unit from the plurality of display units;
And displaying the image displayed on the selected first display unit on the second display unit. The method of claim 21,
And the light source information includes at least one of a light source frequency and a light source pattern of the first display unit. The method of claim 22,
The detecting of the light source information of the indicated first display unit may include:
And identifying the first display unit according to the light source frequency. The method of claim 22,
The detecting of the light source information of the indicated first display unit may include:
And calculating coordinate information of the image based on the light source pattern at an instruction position of the first display unit sensed by the pointing device. The method of claim 21,
In the displaying on the second display unit,
Selecting the first display unit displaying the image from the plurality of display units by operating buttons of the pointing device provided to move up, down, left and right, and displaying the image on the second display unit selected by the operation button; Control method of the electronic blackboard system comprising the step. The method of claim 21,
Detecting light source information of the first display unit,
And highlighting the first display unit indicated by the pointing device. The method of claim 21,
Selecting the second display unit,
Highlighting the second display unit selected by the pointing device.

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