JP3125148U - Display device for exhibition - Google Patents

Abstract

An object of the present invention is to provide a display for display that eliminates display problems occurring on a display on the receiving side and has a high display effect.
[Solution]
Image data for transmission by applying a predetermined compression process to the cut-out image data and cutting-out image data for generating a cut-out image data by cutting out a basic image in accordance with a predetermined screen shape and size of the image reproduction display means An image distribution device 12 having an image processing means having a compression means for generating the image, a communication line 30 for transmitting the transmission image data, and the cut-out image data by receiving the transmission image data. It comprises an image receiving device 22 provided with image reproduction display means for displaying.
[Selection] Figure 1

Description

  The present invention relates to a display device for exhibition, and more particularly, to a device having a display having a special shape installed outdoors, for example.

  For example, in an exhibition display installed outdoors or the like, images such as still images and moving images are distributed from various headquarters equipped with a control device through various communication lines. At present, regarding the image shape, the image on the distribution side and the image on the reception side are almost unified in a horizontally long rectangular shape. For this reason, when adapting to the screen on the receiving side, only a slight change in the aspect ratio is required, so that there is no particular problem.

  On the other hand, with the recent progress and diversification of image display technology, it has become possible to develop an image display device processed into an arbitrary shape relatively easily. For example, a large screen can be obtained by appropriately combining panel-type LED display modules (see Patent Document 1). In consideration of the purpose of use, installation location, and the like, a display having a special shape such as a circular shape or a shape including an arc having a high display effect is required instead of the conventional simple rectangular shape.

  In such a case, the basic image on one distribution side has a conventional rectangular shape, and the display device on the other reception side has a special shape. In other words, since the shapes of the images to be displayed are different, if the distribution image is transmitted directly to the display device on the receiving side, there is a risk of inconvenience due to the display area of the image. For example, it is conceivable that the cutting method becomes unnatural. Further, as shown in FIG. 8, since the display magnification is forcibly adjusted in accordance with the shape of the display display 90, the original image may be excessively reduced and a non-display portion 99 may be generated. The symbol Q is the reduced original image, and the rectangular shape remains as it is.

However, such an image display is unsightly in appearance, greatly impairs the display effect, and has a high display effect for a display including a special shape, particularly a special shape such as a circular shape or a shape including an arc that easily causes a non-display portion. The emergence of devices is desired.
JP 2001-337626 A

  In view of this, the present invention eliminates display problems that occur on the display display on the receiving side by creating the image on the receiving side in advance according to the screen shape of the display device on the receiving side and displaying it on the receiving side. It is intended to provide a display for display with a high display effect.

  In other words, the invention of claim 1 includes a cutting unit that cuts out a basic image in accordance with a predetermined screen shape and size of the image reproduction display unit, and generates cut-out image data. An image distribution device including an image processing unit having a compression unit that performs compression processing to generate image data for transmission; a communication line for transmitting the image data for transmission; and the image data for transmission And an image receiving device having an image reproduction display means for displaying the cut-out image data.

  The invention according to claim 2 relates to the display device for display according to claim 1, wherein the image receiving device includes image data storage means for storing image data for transmission.

  According to a third aspect of the present invention, there is provided the display device for display according to the first or second aspect, wherein the image reproduction display means is provided with a dot matrix type LED.

  The invention according to claim 4 relates to the display apparatus for display according to any one of claims 1 to 3, wherein the image reproduction display means has a circular shape or a shape including an arc.

  According to the display device for display according to the invention of claim 1, a cutting means for cutting out a basic image in accordance with a predetermined screen shape and size of the image reproduction display means to create cut-out image data, and the cut-out An image distribution apparatus including an image processing unit having a compression unit that applies predetermined compression processing to image data to create transmission image data; a communication line such as the Internet that transmits the transmission image data; Since it comprises an image receiving device provided with an image reproduction display means for receiving the credit image data and displaying the clipped image data, it is created in advance on the image distribution side according to the screen shape of the display device on the receiving side, By displaying this on the receiving side, it is possible to eliminate display problems that occur on the display on the receiving side and to provide a display for display with a high display effect. The ability.

  According to the display device for display according to the invention of claim 2, in the invention of claim 1, since the image receiving device includes image data storage means for storing image data for transmission, a large amount of data can be stored and stored. The stored image can be reproduced at a desired time.

  According to the display device for display according to the invention of claim 3, in the invention of claim 1 or 2, since the image reproduction display means is provided with a dot matrix type LED, a large screen suitable for outdoor exhibition In addition, the power consumption can be reduced.

  According to the display device for display according to the invention of claim 4, in the invention of any one of claims 1 to 3, the image reproduction display means has a circular shape or a shape including an arc. Customers and passers-by are interested in the innovative circular display display and are impacted, resulting in a high display effect.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.
1 is an overall configuration diagram of a display apparatus for display according to an embodiment of the present invention, FIG. 2 is a conceptual diagram of basic image data, FIG. 3 is a conceptual diagram of cut-out image data, and FIG. 4 is a conceptual diagram of transmission image data. 5 is a schematic perspective view of the LED module, FIG. 6 is a schematic perspective view of a display display, and FIG. 7 is a display example on the display display.

  As shown in the overall configuration diagram of FIG. 1 and defined in the invention of claim 1, the display device 1 for exhibition includes a communication line 30 such as the Internet connecting a headquarter 10 corresponding to an image transmitting side and a branch 20 serving as an image receiving side. The image data processed in the headquarters 10 is transmitted to the display 50 in the branch 20. The displayed image may be any of a still image, a moving image, a frame advance image, and the like.

  In the form of disclosure of the embodiment, a transmission server 12 (image distribution apparatus) including a workstation 11 (image processing means) for image processing is installed in the headquarters 10. Each branch 20 is provided with a receiving server 22 (image receiving device) having a display 50 (image reproduction display means) for displaying an image. All necessary data such as images and sounds are transmitted from the transmission server 12 at the headquarters to the reception server 22 at the branch via a communication line 30 such as the Internet.

  The transmission server 12 and the reception server 22 execute various functions such as aggregation and distribution of data to be transmitted, instructions on the specific shape and size of the display display 50 of the branch 20, data composition, editing, decompression, and DA conversion. Is done. The workstation 11 is a dedicated machine on which a dedicated microcomputer (microprocessor) specialized for image processing is mounted.

  Usually, the basic image is composed of a rectangular shape having a ratio approximate to 1 × vertical 1.62. However, in order to correspond to the display 50 having an arbitrary shape, it is necessary to specially edit and process rectangular image data.

  An example of image data editing and processing in the workstation 11 will be described with reference to FIGS. First, in order to adapt to the screen shape and the size of the display part of the display 50 itself, the cutout area Ca is specified for the basic image data P1 (see FIG. 2). In the case of the embodiment, the display display 50 has a circular shape in front view as disclosed in FIG. 6, so that the cutout area Ca is also a circle.

  For setting the position and amount of the cutout area Ca in the basic image data, known image processing and editing techniques are preferably used, and are not particularly limited. In the case of the embodiment, a coordinate axis (not shown) and the center of gravity O are set in the basic image data P1, and the center of gravity in the shape of the display display is superimposed on the center of gravity O, thereby determining the position of the cutout area Ca. The amount of the cut-out area Ca is optimized and calculated in accordance with the resolution of the display image, the density of display dots on the display display described later, and the like.

  Thus, cut-out image data P2 of only the cut-out area Ca is created from the basic image data P1. The cut-out image data P2 is shown as the conceptual diagram of FIG. While the basic image data P1 in FIG. 2 is a rectangle, only necessary data is separated in accordance with the shape of the display. In other words, data in the cutout area Ca is left, and other basic image data is deleted, and as a result, the total data amount is reduced.

  Furthermore, as shown in the conceptual diagram of FIG. 4, predetermined image information compression processing is performed on the cut-out image data P <b> 2 to create transmission image data P <b> 3. In the case of data transmission using the communication line 30 such as the Internet, it is indispensable to compress the total amount of data because of the data transmission capacity on the line. A known data compression technique such as MPEG2, MPEG4, JPEG, or the like is used as a compression method for creating transmission image data P3 from the cut-out image data P2, a linear interpolation method, and the like, and the method is not limited. As described above, the workstation 11 according to the embodiment includes the image processing unit including the cutting unit and the compression unit.

  The transmission image data P3 is temporarily stored in the transmission server 12, and transmitted from the transmission server 12 to the reception server 22 of each branch. In the embodiment, the workstation corresponding to the image processing means (cutout means, compression means) is provided independently, but it is also possible to make the transmission server concurrently.

  The transmission image data P3 transmitted via the communication line 30 such as the Internet is received by the reception server 22 of the branch 20 and the reception server 22 restores (decompresses) the compressed image and reproduces the image. Various processes necessary for the above are executed. Naturally, at this time, the cut-out image data P2 is restored.

  The transmission image data P3 can be transmitted simultaneously or at any time. However, taking into account the transmission capacity of the current communication line such as the Internet, the burden of transmission of moving images for a long time increases. Therefore, it is desirable to packetize transmission image data P3 and transmit it as needed. In such a case, the reception server 22 recreates the transmission image data P3 from the individual packets.

  As defined in the invention of claim 2, the receiving server 22 can include a storage server 40 for storing the transmission image data P3 (see FIG. 1). In this case, the storage server 40 can have a function of storing and holding the recreated transmission image data P3, and the reception server 22 can specialize in editing the packetized transmission image data P3. The processing burden is reduced. The storage server 40 of the embodiment also stores and saves the cut image data P2 obtained by restoring (decompressing) the transmission image data P3 recreated from the packet. Therefore, it is possible to reproduce the stored image at a desired time. Note that the receiving server 22 can also serve as the storage server 40.

  In the case of the embodiment, the display display 50 is connected to the storage server 40 as understood from the overall configuration diagram of FIG. As a display method of the display 50, various methods such as a TFT-LCD module method, a PDP method, and an LED panel method can be applied. In these display modes, the power saving and the LED panel method are particularly desirable when exhibiting outdoors and obtaining a large screen.

  As shown in FIG. 5 and defined in the invention of claim 3, the display 50 is configured by integrating a plurality of LED modules 51 in which dot matrix type LEDs are arranged. In the LED module 51 of the embodiment, RGB-LEDs 52 that emit three primary colors of red, green, and blue are arranged in a module frame body 53 in a lattice shape (dot matrix shape) at predetermined intervals. Reference numeral 54 denotes a cable. For details of the module, refer to the above-mentioned Patent Document 1. As described above, since the LED module 51 can be arranged in a desired shape, the LED module 51 is not limited to the conventional simple rectangular image display area, and can be formed into a free shape considering the installation location and the appeal effect. For example, it is possible to match the shape of the display display to the silhouette of the article for sale.

  As shown in FIG. 6 and defined in claim 4, the image display surface 55 of the display 50 has a circular shape or a shape including an arc. The LED module of the embodiment is a square having a side of 24 to 25 cm, and a display configured by combining these is a disk body having a diameter of 300 to 360 cm. Customers and passers-by who are accustomed to the rectangular display until now are interested in the circular display and are impressed with the unnaturalness of the displayed image (video). FIG. 7 is a display example on the circular display display 50. An image based on the cut image data P2 of the cut region Ca set for the basic image data P1 is faithfully reproduced on the display 50.

  As in the embodiment, when an LED module in which dot matrix type LEDs are arranged is used, the density of display dots (the number of arranged RGB-LEDs) displayed on the display is fixed. Even if an attempt is made to reduce the basic image (its dots) in accordance with the screen shape of the display, it is not possible to express dots that are less than the distribution density of the arranged RGB-LEDs. Therefore, instead of forcibly reducing the basic image, the cutout area Ca is set by selecting only a necessary range for display. In particular, since the cut-out area Ca is set based on a predetermined algorithm in the workstation 11, it is possible to avoid deterioration in image quality displayed on the dot matrix type LED display.

  As described above, the display device for display shown and described in detail has a high degree of freedom in design of the shape of the display display, and thus can be applied to a place where a high display effect such as advertisement or promotion is required. For example, novel fun can be produced on indoor and outdoor display displays such as amusement facilities and amusement facilities.

1 is an overall configuration diagram of a display device for display according to an embodiment of the present invention. It is a conceptual diagram of basic image data. It is a conceptual diagram of cut-out image data. It is a conceptual diagram of the image data for transmission. It is a schematic perspective view of an LED module. It is a schematic perspective view of a display. It is an example of a display in a display. It is an example of a display in the conventional display apparatus for exhibition.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Display apparatus for exhibition 10 Headquarters 11 Workstation (image processing means)
12 Transmission server (image distribution device)
20 branches 22 receiving server (image receiving device)
40 Storage server (image data storage means)
50 display (image display reproduction means)
51 LED module 52 RGB-LED
55 Image display surface

Claims (4)

Image data for transmission by applying a predetermined compression process to the cut-out image data and cutting-out image data for generating a cut-out image data by cutting out a basic image in accordance with a predetermined screen shape and size of the image reproduction display means An image distribution device comprising image processing means having compression means for creating
A communication line for transmitting the image data for transmission;
An display device comprising: an image receiving device including image reproduction display means for receiving the transmission image data and displaying the cut-out image data.   The display apparatus for display according to claim 1, wherein the image receiving apparatus includes image data storage means for storing image data for transmission.   3. The display apparatus for display according to claim 1, wherein the image reproduction display means is provided with a dot matrix type LED.   The display apparatus for display according to any one of claims 1 to 3, wherein the image reproduction display means has a circular shape or a shape including an arc.

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