JP2012124759A - Information display device and information display method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an information display device and an information display method which achieve simple processing and easy wiring even when an image is displayed in a large screen by simultaneously using a large number of displays.SOLUTION: An information display device comprises: an image controller; and plural displays which are connected to the image controller in a daisy chain manner. The image controller includes: a first screen configuration information holding section which holds connection information; an image division processing section which divides, according to the connection information, an image content into image information to be displayed by each display; and a first communication section which sends an image signal including the divided image information to each display. Each display includes: a second communication section which can transfer the image information to the next display in the daisy chain; a second screen configuration information holding section which holds own-terminal position information, acquired information amount information and the connection information; and an image extraction processing section which extracts, based on the held information, the image information to be displayed by the own display from the image signal; and a display section which displays the extracted image information.

Description

  The present invention relates to an information display device and an information display method for displaying display information such as video content.

  Conventionally, as a method of displaying information for an unspecified number of people, a method using distribution of a signboard, a poster, a bulletin board, a display shelf, a flyer or a pamphlet is known. However, when an information display is accompanied by an entity such as a printed matter or an exhibit, it is difficult to change the display content in a short time. In order to solve this problem, it has also been proposed that an advertising technique used in broadcasting or the like is adopted, and a signboard, a poster, or a bulletin board in the city is replaced with a display device to display information.

  In Patent Document 1, a proposal has been made to reduce the price of a video device and to make the device size flexible by displaying a digital video stream distributed over a network on a large screen composed of a plurality of displays. Yes.

  Further, in Patent Document 2, a video display distributed from a content distribution server via a network is divided into a plurality of pieces by a multi-display component device and re-encoded, so that a large display constituted by a plurality of small displays is used. A technique for displaying video information on a screen is described.

JP 05-341723 A JP 2006-2111164 A

  According to the above conventional technique, if the number of small displays constituting the large screen is several to several tens, the re-encoded data is transmitted to the respective displays and the video information is displayed on the large screen. However, when connecting several hundreds to thousands of displays, for example, problems such as processing complexity and wiring difficulties that can be ignored when the number of displays is small become obvious. .

  In this way, in the case of displaying images using thousands of displays at the same time, it is necessary to realize a so-called flexible image playback method that has little effect on the increase in the number of displays. is there.

  The present invention has been made in view of the above, and an information display device and an information display that are not complicated in processing and can be easily wired even when a large number of displays are simultaneously used to display an image on a large screen. It aims to provide a method.

  In order to solve the above-described problems and achieve the object, an information display device according to the present invention is connected to a video controller that performs display control of video content, and a daisy chain connected to the video controller via a connection line. A plurality of displays, and the video controller includes a first screen configuration information holding unit that holds connection information that defines a connection relationship between the video controller and the plurality of displays, and the connection according to the connection information. A video division processing unit that divides the video content into video information to be displayed on each display, and a first communication unit that transmits a video signal including the divided video information to each display. Each of the displays receives the video signal and the next display on the side opposite to the side receiving the video signal. Is connected, the second communication unit for transferring the video signal to the next display, own terminal position information which is information for specifying the connection position of the own display, and the video signal should be taken out A second screen configuration information holding unit for holding acquired information amount information representing the amount of information and the connection information; the own terminal location information acquired from the second screen configuration information holding unit; and the acquired information amount information And a video extraction processing unit that extracts video information to be displayed on the display from the video signal based on the connection information, and a display unit that displays the extracted video information. To do.

  According to the present invention, even when a large number of displays are used simultaneously to display an image on a large screen, there is an effect that processing is not complicated and wiring is easy.

FIG. 1 is a diagram illustrating an example of a connection configuration of an information display device according to an embodiment. FIG. 2 is a diagram illustrating another example of the connection configuration of the information display apparatus according to the embodiment. FIG. 3 is a diagram illustrating an example of an internal configuration of the information display apparatus according to the embodiment. FIG. 4 is a diagram schematically illustrating an example of connection information held in the video controller. FIG. 5 is a diagram schematically showing the contents of signal examples transmitted from the video controller 1 to the displays 2-1-1 to 2-1 -N. FIG. 6 is a diagram illustrating an example of connection configuration information. FIG. 7 is a diagram showing an example of a display reproduction timing signal in the conventional information display method. FIG. 8 is a diagram illustrating an example of a display reproduction timing signal in the information display method according to the embodiment. FIG. 9 is a diagram illustrating another example of the display reproduction timing signal in the information display method according to the embodiment. FIG. 10 is a diagram showing the video display method described in Patent Document 2. In FIG.

  Embodiments of an information display device and an information display method according to the present invention will be described below in detail with reference to the drawings. Note that the present invention is not limited to the embodiments.

Embodiment.
FIG. 1 is a diagram illustrating an example of a connection configuration of the information display apparatus according to the present embodiment. As shown in FIG. 1, the information display device includes a video controller 1 that performs display control of display information (video content), and a plurality of displays 2 connected to the video controller 1. Here, the plurality of displays 2 are controlled by the video controller 1 so as to display one video as a whole. That is, each display 2 partially displays the video.

  In FIG. 1, for example, 4 × N (N is an integer of 2 or more) displays 2 are connected to the video controller 1 in a daisy chain. Specifically, the displays 2-1-1 to 2-1 -N are connected to the video controller 1 in a daisy chain by connection lines 42 and 43. The same applies to the displays 2-2-1 to 2-2N, the displays 2-3-1 to 2-3-N, and the displays 2-4-1 to 2-4-N. In this way, 4 × N displays 2 are connected to the video controller 1 in a daisy chain, and the video signals sent from the video controller 1 are sequentially transferred between the displays 2 so that the video controller 1 and the display 2 are connected. The number of connection lines 41 to be connected is reduced (in the example shown in the figure, for example, four lines are used regardless of the size of N). Therefore, according to such a configuration, even when the number of the displays 2 increases, the number of connection lines 41 connected to the video controller 1 does not increase, so that flexibility of connection is ensured. It can be said.

  Further, in FIG. 1, the screen shape constituted by the two display groups is a rectangular shape which is the screen shape of the conventional main information display device, but is not limited to this, for example, a donut shape or a spherical shape. You can also FIG. 2 is a diagram showing another example of the connection configuration of the information display device according to the present embodiment, and shows a case where the screen shape is, for example, a donut shape. Further, by removing a part of the display 2 from the arrangement configuration of the display 2 as shown in FIG. 1 or newly adding the display 2 to the arrangement configuration, a more flexible configuration of the information display device is possible. Furthermore, even when the number of connections of the display 2 is different for each connection line 41, the maximum number of the displays 2 connected in a daisy chain is set so that the entire screen configuration can be regarded as a rectangle, for example. In addition, by adjusting the arrangement of the display 2 connected to each connection line 41, a schematic screen configuration as shown in FIG. 1 can be realized. Hereinafter, the connection configuration between the video controller 1 and the display 2 group will be described as being as shown in FIG. 1, for example, but the same applies to the case shown in FIG.

  FIG. 3 is a diagram showing an example of the internal configuration of the information display apparatus according to the present embodiment. In FIG. 3, the video controller 1, the display 2 connected to the video controller 1 via a connection line 41, another display 2 connected to the display 2 via a connection line 42, and the video controller 1 A communication network (network) 3 connected via a transmission line 31 is shown. In FIG. 3, for the sake of simplicity of display, for example, only two displays 2 connected to one connection line 41 are displayed. However, as described in FIG. The number of displays 2 connected to the controller 1 is variable depending on the configuration. Further, for example, a content distribution server (not shown) is connected to the communication network 3, and the video controller 1 can receive video content from the content distribution server through the communication network 3.

  As shown in FIG. 3, the video controller 1 includes an input / output I / F unit 11, a control unit 12 connected to the input / output I / F unit 11 via a transmission path 60, and a transmission path to the control unit 12. The signal I / F unit 13 is connected via the terminals 69 and 70.

  The input / output I / F unit 11 includes input means such as a keyboard and a mouse that are used when an operator who manages content distribution inputs data to the video controller 1, and a monitor that displays input / output information to the operator. Output means (display means). That is, the input / output I / F unit 11 is a user interface unit.

  The control unit 12 includes a video management I / F unit 121 connected to the input / output I / F unit 11 via the transmission path 60, and content information connected to the video management I / F unit 121 via the transmission path 61. A video processing / division processing unit 123 connected to the holding unit 122 through the transmission path 62 and connected to the video management I / F unit 121 through the transmission path 62, and a video management I A screen configuration / state information holding unit 124, a content information holding unit 122, and a transmission path connected to the / F unit 121 via the transmission path 63 and connected to the video processing / division processing unit 123 via the transmission path 68. 64 is connected to the video processing / division processing unit 123 via the transmission path 65, and is connected to the screen configuration / state information holding unit 124 via the transmission path 66. Constructed and a only part 125.

  The video management I / F unit 121 is interposed between the input / output I / F unit 11, the content information holding unit 122, the video processing / division processing unit 123, and the screen configuration / state information holding unit 124. Video information (display information) and control information can be accessed.

  The content information holding unit 122 holds content information such as a pixel size (display size) and a frame rate of video content, for example. In the following, information related to actual video out of information related to video content is referred to as video information, and information related to video content attributes such as pixel size (display size) and frame rate is referred to as content information.

  The screen configuration / state information holding unit 124 holds screen configuration information such as connection information of the display 2 and state information of the display 2. Here, the connection information of the display 2 is information that specifically defines the connection relationship between the display 2 group and the video controller 1, and is information regarding the screen configuration of the display 2 group. The connection information includes connection configuration information and own terminal location information described later. Further, the state information is, for example, information indicating the operation state of the display 2 and is, for example, failure detection information related to the display 2. Further, the state information of the display 2 includes information such as a pixel size (display size) and a display frequency of the screen of each display 2, for example. Content information and status information are included in the control information. The control information includes communication delay information and moving image information, which will be described later. Note that the screen configuration / state information holding unit 124 may be divided into a screen configuration information holding unit and a state information holding unit.

  The video processing / division processing unit 123 performs video content division processing according to actual video content, screen configuration information, and status information. That is, the video processing / division processing unit 123 divides the video content into a plurality of pieces of video information according to the number of displays 2 that are actually operating, the pixel size of each display 2, the pixel size of the video content, and the like. . In addition, the video processing / dividing processing unit 123 performs video content processing as necessary. For example, the video processing / division processing unit 123 can perform video processing such as luminance correction or gamma correction on the video content. Note that the video processing / division processing unit 123 may be divided into a video processing processing unit and a video division processing unit.

  The video signal / control signal sorting unit 125 is interposed between the content information holding unit 122, the video processing / dividing processing unit 123, the screen configuration / state information holding unit 124, and the signal I / F unit 13. And a signal (control signal) related to control information such as content information, connection information, or display 2 status information. For example, when video content is provided to the video controller 1 through the communication network 3, the video signal / control signal distribution unit 125 may send only the video signal from the video content to the video processing / division processing unit 123. it can.

  A video signal and a control signal are transmitted and received through the signal I / F unit 13, the communication network 3, or between each display 2.

  Next, the configuration of the display 2 will be described. The display 2 includes a signal I / F unit 21, a control unit 22 connected to the signal I / F unit 21 via a transmission path 80, and a display unit connected to the control unit 22 via a transmission path 88. 23.

  The signal I / F unit 21 transmits / receives a video signal and a control signal via the connection line 41, or transmits / receives a video signal and a control signal to / from another display 2 via the connection line 42.

The control unit 22 includes a video signal / control signal distribution unit 221 connected to the signal I / F unit 21 via the transmission path 80, and a playback connected to the video signal / control signal distribution unit 221 via the transmission path 81. A screen configuration / state information holding unit 223 connected to the timing signal generation unit 222, the video signal / control signal distribution unit 221 and the transmission path 82, and connected to the reproduction timing signal generation unit 222 and the transmission path 86. A video processing / retrieving processing unit 224 that is connected to the video signal / control signal sorting unit 221 via the transmission path 83 and connected to the screen configuration / state information holding unit 223 via the transmission path 87; The display signal I / F unit 2 connected to the signal generation unit 222 via the transmission path 84 and connected to the image processing / removal processing unit 224 via the transmission path 85. 5 and configured to include a.

  The video signal / control signal distribution unit 221 is interposed between the reproduction timing signal generation unit 222, the screen configuration / state information holding unit 223, the video processing / removal processing unit 224, and the signal I / F unit 21. The signal and the control signal are distributed. For example, the video signal / control signal sorting unit 221 outputs the video signal transmitted from the video controller 1 to the video processing / removal processing unit 224 via the transmission path 83. The video signal / control signal distribution unit 221 outputs the control signal transmitted from the video controller 1 to the reproduction timing signal generation unit 222 via the transmission path 81.

  Based on the control information transmitted from the video controller 1, the playback timing signal generation unit 222 generates a display playback timing signal that instructs to start playback of video information on the display 2 itself. At this time, the reproduction timing signal generation unit 222 considers a communication delay time, which will be described later, and corrects the reproduction start time to generate a display reproduction timing signal based on the corrected reproduction start time. Generate. Note that the video signal / control signal distribution unit 221 can transmit the control information transmitted from the video controller 1 to the reproduction timing signal generation unit 222 via the transmission path 81.

  The screen configuration / state information holding unit 223 holds screen configuration information such as connection information (connection configuration information) transmitted from the video controller 1 and connection position information (own terminal location information) within the screen configuration of the display 2 itself. To do. The screen configuration / state information holding unit 223 collects and holds state information of the display 2 itself. The screen configuration / state information holding unit 223 can periodically transmit the state information of the display 2 to the video controller 1. The screen configuration / state information holding unit 223 can hold temperature information in addition to the above-described failure detection information, for example, as the state information when the temperature of the display 2 is managed. Note that the screen configuration / state information holding unit 223 may be divided into a screen configuration information holding unit and a state information holding unit.

  The video processing / removal processing unit 224 uses the connection information and the position information of the local display 2 to extract the video information to be displayed on the local display 2 from the video signal transmitted from the video controller 1, and as necessary. The video information can be processed. Note that the video processing / removal processing unit 224 may be divided into a video processing processing unit and a video extraction processing unit.

  The display signal I / F unit 225 sends the display reproduction timing signal output from the reproduction timing signal generation unit 222 to the display unit 23. Further, the display signal I / F unit 225 sends the video information to be displayed on the display 2 output from the video processing / removal processing unit 224 to the display unit 23.

  The display unit 23 is a part that actually displays a video based on a video signal, and includes, for example, a liquid crystal panel.

Next, the operation of the present embodiment will be described with reference to FIG. In the video controller 1, content information can be set after the power is turned on. For example, when content information such as a pixel size and a frame rate of video content is manually input from the input / output I / unit 11, the content information sequentially passes through the transmission path 60, the video management I / F section 121 and the transmission path 61. To the content information holding unit 122. Content information can also be set through the communication network 30. For example, the video content transmitted to the video controller 1 through the communication network 30 is received by the signal I / F unit 13 and then sent to the video signal / control signal distribution unit 125 via the transmission path 69. The video signal / control signal distribution unit 125 reads content information such as a pixel size and a frame rate of the video content with reference to, for example, a header area of the signal, and then transmits the content information via the transmission path 64 to the content information. Transmit to the holding unit 122.

  Similarly, the video controller 1 can set screen configuration information such as connection information of the display 2 after the power is turned on. For example, when the connection information is manually input from the input / output I / unit 11, the connection information is sequentially transmitted via the transmission path 60, the video management I / F section 121, and the transmission path 63 to the screen configuration / state information holding section 124. Sent to. Connection information can also be set through the communication network 30 by, for example, describing connection information in advance in the header area of the video content signal. That is, the video content transmitted to the video controller 1 through the communication network 30 is received by the signal I / F unit 13 and then sent to the video signal / control signal distribution unit 125 via the transmission path 69. The video signal / control signal distribution unit 125 reads the connection information of the display 2 with reference to the header area of the video content signal, and then transmits the connection information to the screen configuration / state information holding unit via the transmission path 66. 124.

  The state information of each display 2 is periodically transmitted from the screen configuration / state information holding unit 223 of each display 2 to the screen configuration / state information holding unit 124 of the video controller 1. For example, the screen configuration / state information holding unit 223 transmits failure detection information to the transmission path 82, the video signal / control signal distribution unit 221, the transmission path 80, the signal I / F unit 21, the connection line 41, and the signal I / F unit 13. Then, the data is transmitted to the screen configuration / state information holding unit 124 through the transmission path 70, the video signal / control signal distribution unit 125, and the transmission path 66 in order. In this way, the screen configuration / state information holding unit 124 periodically updates the state information, and if, for example, the display 2 that is difficult to display an image due to a failure is found based on the failure detection information, The connection information can be updated accordingly. The screen configuration / state information holding unit 124 transmits the control information such as the updated connection information to the transmission path 66, the video signal / control signal distribution unit 125, the transmission path 70, the signal I / F unit 13, and the connection line 41. , The signal I / F unit 21, the transmission path 80, the video signal / control signal distribution unit 221, and the transmission path 82 are sequentially transmitted to the screen configuration / state information holding unit 223. The control information transmitted from the screen configuration / state information holding unit 124 to each display 2 includes communication delay information and the like described later.

  Next, the operation of the video processing / division processing unit 123 will be described. In the following description, the video content is a so-called VGA having a screen resolution of 640 × 480 pixels, for example, and a configuration in which 80 × 80 pixels are displayed on one display 2 will be described as an example.

  FIG. 4 is a diagram schematically illustrating an example of connection information held in the video controller 1. That is, the screen configuration / state information holding unit 124 holds connection information corresponding to, for example, the contents shown in FIG. In FIG. 4, six connection lines 41 are connected to the video controller 1 in parallel with each other, and eight displays 2 are connected to each connection line 41 in a daisy chain. Moreover, the screen shape comprised by the display 2 group is a substantially rectangular shape, for example. However, the hatched portion (for example, the first row and the first column) represents a portion where the display 2 does not actually exist, aiming at a structural problem or display effect at the installation location of the display 2, for example. That is, in FIG. 4, the display 2 is assumed to be arranged in 8 horizontal and 6 vertical, and further, by actually displaying a hatched portion in a place where the display 2 is not actually installed, Connection information according to the connection mode is provided. It should be noted that although the display 2 is actually installed, even when display cannot be performed due to a failure or the like, for example, the display 2 can be similarly distinguished from those that normally operate with hatching.

  The video processing / division processing unit 123 acquires content information from the content information holding unit 122 via the transmission path 67. This content information includes information that the video content is 640 × 480 pixels. Also, the video processing / division processing unit 123 acquires connection information from the screen configuration / state information holding unit 124 via the transmission path 68. The connection information includes information that the 80 × 80 pixel display 2 is connected in the horizontal 8 and vertical 6 directions, and the display 2 does not exist in the hatched portion. The video processing / dividing processing unit 123 acquires video content (display information) from the video signal / control signal distributing unit 125 via the transmission path 65. The video content may be input to the video signal / control signal distribution unit 125 through the communication network 3, for example, or may be stored in a storage unit (not shown) in the video controller 1, for example. It may be input to the control signal distribution unit 125.

  Further, the video processing / dividing processing unit 123 performs video processing such as luminance correction or gamma correction on the video content as necessary based on the content information and the connection information, and then converts the video content to 8 × 6. A process of dividing into pieces of information is performed. Specifically, the video processing / division processing unit 123 divides the video content into 8 × 6 frames according to the arrangement of the display 2 of 8 horizontal and 6 vertical. Here, the divided video information is information of 80 × 80 pixels, respectively. Information that the size of the video information allocated to each display 2 is 80 × 80 pixels, for example, is held in the screen configuration / state information holding unit 124 as a part of the control information (moving image information). That is, the screen configuration / state information holding unit 124 includes information on the display size of each display 2 as part of the connection information, for example.

  In addition, the video processing / dividing processing unit 123 divides the video signal according to the number of connection lines 41, for example. That is, the video processing / division processing unit 123 generates a video signal for each connection line 41, and each video signal includes video information for a plurality of displays 2 connected to the connection line 41 through which the video signal is transmitted. Can be divided and included. The video processing / division processing unit 123 outputs the divided video signal to the video signal / control signal distribution unit 125. The video signal / control signal distribution unit 125 outputs each video signal to the signal I / F unit 13 via the transmission path 70. Then, the signal I / F unit 13 sends each video signal to the corresponding connection line 42.

  Note that the video processing / division processing unit 123 performs interpolation processing, thinning processing, filter processing, and processing using super-resolution technology when the video content and the pixel size (display size) or display frequency of the display 2 do not match. By applying a correction process such as the above, it is possible to perform a process of matching between the video content and the display 2. Similar processing can also be performed by the video processing / removal processing unit 224.

  Next, the operation of the display 2 will be described. In addition, although control information is demonstrated as already set, the transmission / reception process is as having already demonstrated. The display 2 connected to the video controller 1 via the connection line 41 receives the video signal transmitted from the video controller 1 at the signal I / F unit 21. The signal I / F unit 21 of the display 2 transmits the received video signal to the video signal / control signal distribution unit 221 in the control unit 22 via the transmission path 80 and also transmits the next video signal via the connection line 42. A relay transmission process for transmitting to the display 2 is also performed. The second and subsequent displays 2 perform the same process. That is, the second and subsequent displays 2, when there is a display 2 subsequent to itself, sends the video signal transmitted from the previous display 2 through the connection line 42 to its own signal I / F unit 21. The signal I / F unit 21 transmits the received video information to its own video signal / control signal distribution unit 221 and also performs relay transmission processing to transmit it to the subsequent display 2. The preceding stage means the video controller 1 side or the side receiving the video signal with respect to the connection, and the subsequent stage means the opposite side to the previous stage.

  The video signal / control signal distribution unit 221 transmits the received video signal to the video processing / removal processing unit 224 via the transmission path 83.

  The video processing / retrieving processing unit 224 extracts video information to be displayed on the own display 2 from the video signal based on the connection information acquired from the screen configuration / state information holding unit 223 via the transmission path 87, and if necessary, After performing image processing such as luminance correction or gamma correction, the extracted video information is transmitted to the display signal I / F unit 225 via the transmission path 85.

  On the other hand, the playback timing signal generation unit 222 starts playback of video information on its own display 2 based on control information received from the video controller 1 or acquired from the screen configuration / state information holding unit 223 via the transmission path 86. A display reproduction timing signal to be instructed is generated, and this display reproduction timing signal is output to the display signal I / F unit 225.

  The display signal I / F unit 225 sends the video signal and the display reproduction timing signal to the display unit 23. The display unit 23 reproduces the video to be displayed on the display 2 at the reproduction timing specified by the display reproduction timing signal.

  Next, a video display time synchronization method according to the present embodiment will be described. FIG. 5 is a diagram schematically showing an example of signals transmitted from the video controller 1 to the displays 2-1-1 to 2-1 -N. FIG. 5 shows an example in which the control information A1 and the video signal B1 are transmitted as a set. In this case, the video processing / division processing unit 123 transmits a signal as illustrated in FIG. 5 to the display 2. However, as described above, the control signal A1 may be transmitted before the video signal B1 is transmitted. The control signal A1 may be transmitted during the blanking time of the video signal B1, or may be defined in a unique format.

  The video information B1 is video information divided for each of the displays 2-1-1 to 2-1 -N, and each video of “for display 2-1-1” to “for display 2-1 -N”. Contains information. In the following, for example, N = 8 in order to correspond to FIG.

  The necessary control information A1 to be set for the display 2 from the video controller 1 is, for example, the following four. That is, (1) connection configuration information, (2) own terminal position information, (3) communication delay information, and (4) moving image information.

  An example of the connection configuration information is shown in FIG. 6 includes the maximum number of displays 2 in each row in FIG. 4 (maximum number of connected rows) and connection information (in-row connection information) in each row. FIG. 6 shows, for example, the first row in FIG. 4, and the maximum number of connected rows is “8”. In the in-line connection information, bit “1” indicates that the display 2 exists, and bit “0” indicates that the display 2 does not exist. Specifically, “0” of “00111100” corresponds to the display 2 hatched in the first row of FIG. 4, and “1” represents the other displays 2-1-3 to 2-1-6 in the same row. It corresponds to. In addition, when there are a plurality of types of sizes that can be displayed on the display 2, for example, display using bytes can be employed instead of display using bits.

  The own terminal position information is information indicating what number the own display 2 is connected to from the video controller 1. The own terminal position information can be set as follows, for example. For example, the case of the first line in FIG. 4 will be described as an example. In the first line, four displays 2 are connected to the video controller 1. First, the screen configuration / state information setting holding unit 124 of the video controller 1 sets its own terminal position information to “4” in accordance with the total number (maximum number) of the displays 2 connected in the first line, and then controls the control information. A1 is transmitted to the display 2-1-3. In the display 2-1-3, the screen configuration / state information holding unit 223 recognizes that four displays 2 including itself are connected to the row by referring to the connection configuration information. Further, since the value is “4” with reference to the local terminal position information, it is recognized that the local display 2 is connected first from the video controller 1 (for example, “maximum number of connected units” − “Own terminal position information” + 1 = 1 is calculated.) Further, for example, when the control information A1 is relayed and transmitted to the next display 2-1-4, the signal I / F unit 21 decrements the value of the own terminal position information by 1 and transmits it. This process may be performed by the screen configuration / state information holding unit 223. By doing so, in the next display 2-1-4, the screen configuration / state information holding unit 223 refers to the connection configuration information, and thus, four displays 2 including itself are connected to the row. Furthermore, since the value is “2” with reference to the local terminal position information, it is recognized that the local display 2 is connected second from the video controller 1 (“ (Maximum number of connected devices)-"Local terminal location information" + 1 = 2 is calculated.) Similarly, the own terminal position information in the row can be uniquely obtained from the display 2 at the subsequent stage. Note that the present invention is not limited to the above method, and for example, the own terminal position information may be given by another method such as manually giving the own terminal position information. In this embodiment, the setting method is not particularly limited.

  The communication delay information includes information regarding a delay time (delay amount) required when the video signal transmitted from the video controller 1 passes through each display 2, and further, a reference position (reference position for correction of the display reproduction timing signal). Information regarding the number of the reference display 2 connected from the video controller 1). In the following, it is assumed that the delay time in each display 2 is, for example, constant (Δt) and the numerical value is set in the communication delay information. Note that a means for automatically measuring the delay time can be provided, and for such an automatic measurement means, a method described in Japanese Patent No. 4331702 may be used. In addition, when the delay time taken when passing through each display 2 is not constant and differs individually, each delay time may be given corresponding to the connection configuration information. For example, each delay time can be set corresponding to each bit of the in-row connection information of FIG. In addition to the communication delay time, for example, if the processing time required for display reproduction within each display 2 is not the same and is different, the delay time should be set as individual delay information in the communication delay information. You can also.

  The moving image information represents the amount of information (acquired information amount) to be taken out by one display 2. For example, in the case of FIG. 4, the moving image information is information such as 80 × 80 pixels and a 16-bit RGB image. Accordingly, the video processing / removal processing unit 224 can obtain the amount of information to be extracted from the own display 2 from the video information B1 shown in FIG. 5, and can appropriately extract the allocated video information. In the video information B1, a delimiter signal may be provided to clarify the amount of information to be extracted. For example, a delimiter signal that distinguishes both of them is provided between the video signals for “display 2-1-1” and “for display 2-1-1”.

  Next, a time synchronization method using the control information A1 will be described. First, the display reproduction timing according to the conventional configuration will be described. FIG. 7 is a diagram showing an example of a display reproduction timing signal in the conventional information display method. In FIG. 7, the timing of generation of the display reproduction timing signal in the display 2-2-1 and 2-2-2 when the video signal B1 is transmitted from the video controller 1 to the daisy chain in the second row of FIG. Is shown.

  First, the video controller 1 transmits the video signal B1 at time t0. The video signal B1 includes the video information for the display 2-2-1 to the display 2-2-8 divided into 80 × 80 pixel video information. After receiving the video signal B1, the display 2-2-1 transfers the video signal B1 to the next display 2-2-2 at time t1. Further, after receiving the video signal B1, the display 2-2-2 transfers the video signal B1 to the next display 2-2-3 at time t2. Here, (t2-t1) is the above-described delay time Δt. As described above, the video signal B1 has a delay in transmission timing because of a delay due to communication processing when passing through each display 2. For this reason, for example, when a display reproduction timing signal is generated after a certain time after the video signal B1 is transmitted from each display 2, the generation times of the display reproduction timing signals differ between the displays 2, and the display 2-2 1 to display 2-2-8 display synchronization is not realized. For example, in the illustrated example, the display 2-2-1 generates a display reproduction timing signal at time t3, and the display 2-2-2 generates a display reproduction timing signal at time t4 (> t3).

  Therefore, in this embodiment, a display reproduction timing signal generated in the display 2 at the reference position by providing a reference position such as the display 2 closest to the video controller 1, the display 2 farthest, or the intermediate display 2. The display reproduction timing signal of the display 2 is corrected with reference to.

  FIG. 8 is a diagram showing an example of a display reproduction timing signal in the information display method of the present embodiment. In FIG. 8, as in FIG. 7, display reproduction on the displays 2-2-1 and 2-2 when the video signal B <b> 1 is transmitted from the video controller 1 to the daisy chain in the second row of FIG. 4. A timing signal generation timing is shown.

  In FIG. 8, the display 2-2-2 is set as the reference position, and the generation time of the display reproduction timing signal on the display 2-2-1 is matched with the generation time of the display reproduction timing signal on the display 2-2-2. It has been corrected. Specifically, the display reproduction timing of the display 2-2-1 is corrected at the time t4 by adding the delay time Δt from the conventional time t3, and is synchronized with the display generation timing of the display 2-2-2. The reproduction timing signal generation unit 222 of the display 2-2-2 corrects the display reproduction timing on the own display 2-2-2 based on the connection configuration information, the own terminal position information, and the communication delay information included in the control information. . Specifically, the reproduction timing signal generation unit 222 recognizes that the display 2-2-1 is set as the reference position based on the communication delay information, and further determines the reference position and the own position from the connection configuration information and the own terminal position information. Since the relationship with the terminal position can be recognized, for example, when the display reproduction timing signal is generated after a certain time after transmitting the video signal B1, the display reproduction timing is obtained by adding the delay time Δt to the certain time. The signal generation time can be corrected so as to be synchronized with the display 2-2-2.

  Further, the operation when the display 2 is missing as in the daisy chain in the fourth row in FIG. 4 (third and fifth columns) will be described with reference to FIG. FIG. 9 is a diagram showing another example of the display reproduction timing signal in the information display method of the present embodiment.

  As shown in FIG. 9, the video signal B1 includes video information for the display 2-4-1 to the display 2-4-8, which is divided into video information of 80 × 80 pixels. Since the video signal B1 itself is made without considering the omission to simplify the process, the image processing / dividing processor 123 also includes the displays 2-4-2 and 2-4-5 corresponding to the omission. The video signal B1 is generated and output to all the displays 2-4-1 to 2-4-8.

  The video processing / removal processing unit 224 of each display 2 extracts video information to be displayed on the local display 2 based on the local terminal position information. In FIG. 9, the video information taken out by each display 2 is indicated by hatching. Further, the reproduction timing signal generation unit 222 of each display 2 grasps the number of the display 2 connected from the video controller 1 based on the connection configuration information and the local terminal position information, and further determines the reference position based on the communication delay information. After grasping, the display reproduction timing is corrected according to the relationship between the own terminal position and the reference position. In FIG. 9, the reference position is, for example, the display 2-4-1. Therefore, for example, in the display 2-4-4, in order to synchronize with the generation time of the display reproduction timing signal on the display 2-4-1, the display reproduction timing is advanced by 2 × Δt corresponding to the delay amount of the two units. Yes.

  As described above, in this embodiment, a plurality of displays 2 are connected to the video controller 1 in a daisy chain, and the video controller 1 divides the video content so that one video is displayed on the entire display 2 group. Thus, video information (display information) to be displayed on each display 2 is created. Then, the video signal including the divided video information is transmitted from the video controller 1 to each daisy chain, and each display 2 is converted from the video signal to the own display 2 based on connection configuration information, own terminal position information, and moving image information. The video information to be displayed is taken out, and the video signal is transferred to the display 2 in the subsequent stage. Therefore, according to the present embodiment, for example, even when a large number of displays 2 such as several thousand are connected to form an information display device, the number of connection lines 41 connected to the video controller 1 is increased. In addition, the processing is not complicated in spite of an increase in the number of connected displays 2.

  In addition, according to the present embodiment, it is possible to form a large screen by connecting a large number of inexpensive and small displays 2 and connecting, for example, thousands of displays 2 at a low cost. Can create a large screen.

  On the other hand, in Patent Document 2, for example, video content distributed from a content distribution server via a network is divided into a plurality of pieces by a multi-display component device and re-encoded, thereby being configured using a plurality of small displays. The technology for displaying video information on a large screen is described, but when the number of small displays that make up a large screen reaches thousands, the re-encoded data is sent to each display to display the large screen. However, there is a problem that the process of displaying video information becomes complicated. FIG. 10 is a diagram showing the video display method described in Patent Document 2, in which the content distribution server 100, the network 101, the multi-display configuration device 107, the network connection units 102a to 102d, the displays 103a to 103d, and the network interface. 104a, processor 105d, and memory 106a are shown.

  Further, according to the present embodiment, each display 2 can correct the display reproduction timing on its own display 2 based on the connection configuration information, its own terminal position information, and communication delay information. Time synchronization of display reproduction timing can be achieved.

  Recently, 3D video content has been developed, but in order to play back 3D video, the video display side needs to be synchronized with each other. That is, when a large screen is constituted by a large number of displays 2, it is necessary to perform time-synchronized display between all the displays 2 with high accuracy. The present embodiment is suitable for 3D display of video content because the playback time can be easily synchronized between the displays 2 even when thousands of displays 2 are connected.

  As described above, the present invention can effectively display display information such as product advertisements, information, news reports, information distribution, or advertisements in places where a large number of unspecified people such as streets or public institutions are expected to come and go. It is suitable for a large-sized video apparatus for displaying the image and its display method.

1 Video controller 2 Display 3 Communication network
11 Input / output I / F unit 12, 22 Control unit 13, 21 Signal I / F unit 23 Display unit 31, 60-70, 80-88 Transmission path 41, 42 Connection line 121 Video management I / F unit 122 Content information holding Unit 123 Video processing / division processing unit 124, 223 Screen configuration / state information holding unit 125, 221 Video signal / control signal distribution unit 222 Playback timing signal generation unit 224 Video processing / extraction processing unit 225 Display signal I / F unit

Claims (6)

A video controller for controlling the display of video content;
A plurality of displays connected to the video controller in a daisy chain via connection lines;
With
The video controller
A first screen configuration information holding unit for holding connection information defining a connection relationship between the video controller and the plurality of displays;
In accordance with the connection information, a video division processing unit that divides the video content into video information to be displayed by the respective displays,
A first communication unit for transmitting a video signal including the divided video information to each display;
With
Each display is
A second communication unit for receiving the video signal and transferring the video signal to the next display when the next display is connected to the side opposite to the side receiving the video signal;
A second screen configuration information holding unit for holding own terminal position information, which is information for specifying a connection position of the own display, acquired information amount information indicating an amount of information to be extracted from the video signal, and the connection information;
Video extraction for extracting video information to be displayed on the own display from the video signal based on the terminal location information acquired from the second screen configuration information holding unit, the acquired information amount information, and the connection information A processing unit;
A display unit for displaying the extracted video information;
An information display device comprising: The video controller includes a content information holding unit that holds content information including at least display size information of the video content,
The information display apparatus according to claim 1, wherein the video division processing unit divides the video content according to display size information of the video content and the connection information. The video controller includes a video processing unit capable of processing the video content,
The content information holding unit holds display size information and frame rate information of the video content,
The first screen configuration information holding unit holds display size information and display frequency information of each display unit,
The video processing processing unit does not match the display size of the video content and the display size of the display units, or the frame rate of the video content and the display frequency of the display units do not match, or 3. The information display apparatus according to claim 2, wherein when both of these hold, correction processing is performed so as to match the display size and display frequency of each display unit by processing the video content. The video controller includes a first state information holding unit that holds state information related to an operation state of each display.
Each display includes a second state information holding unit that holds state information related to the operation state of the display,
The second state information holding unit transmits state information regarding the operation state of the display to the video controller using the second communication unit,
The first state information holding unit receives the state information transmitted from the second state information holding unit using the first communication unit, and operates each display according to the received state information. Update state information about the state,
The information display device according to claim 1, wherein the first screen configuration information holding unit updates the connection information in response to the update of the state information. Each display includes a reproduction timing signal generation unit that generates a display reproduction timing signal that instructs to start reproduction of the video signal on the display unit,
The reproduction timing signal generation unit includes reference position information for specifying a position of one display serving as a reference for display reproduction timing among displays in a daisy chain including its own display, and each display in the daisy chain with the video signal The timing for generating the display reproduction timing signal is displayed on the reference display on the basis of the delay amount information that is information relating to the delay time taken when passing through the terminal, the connection information, and the terminal location information. The information display device according to claim 1, wherein correction is performed in accordance with a generation timing of a reproduction timing signal. An information display method in an information display device comprising: a video controller that performs display control of video content; and a plurality of displays connected in a daisy chain to the video controller via connection lines,
The video controller divides the video content into video information to be displayed by each display according to connection information that defines a connection relationship between the video controller and the plurality of displays;
The video controller transmitting a video signal including the divided video information to each display;
Each display receives the video signal, and when the next display is connected to the side opposite to the side receiving the video signal, transferring the video signal to the next display;
Each display is based on its own terminal position information, which is information for specifying the connection position of its own display, acquired information amount information indicating the amount of information to be extracted from the video signal, and the connection information. Taking out video information to be displayed by the display from
Each display displaying the retrieved video information;
An information display method comprising:

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