JP4928734B2 - Projection-type image display device - Google Patents

Description

The present invention relates to a projection type video display apparatus that expands and projects compressed video data transmitted by a transmission side unit.

  Liquid crystal projectors that project a computer screen onto a large screen are widely used for education and presentation.

  FIG. 4 shows the appearance of a conventional video display system using a PC and a liquid crystal projector. FIG. 5 shows the configuration of the video display system of FIG.

  The video display system includes a personal computer (hereinafter referred to as a PC) 100 to which a wireless LAN card 10 is attached and a liquid crystal projector 200 to which a wireless reception unit 20 is attached.

  As shown in FIG. 5, the video capture application 101 is installed in the PC 100. The wireless LAN card 10 attached to the PC 100 includes a transmission unit 11. The radio reception unit 20 attached to the liquid crystal projector 200 includes a reception unit 21.

  An analog RGB signal is captured by the video capture application 101 in the PC 100. The captured video signal is transmitted to the liquid crystal projector 200 via a network such as the wireless LAN card 10 attached to the PC 100 and the wireless reception unit 20 attached to the liquid crystal projector 200, and is displayed on a screen (not shown) by the liquid crystal projector 200. Projected on.

In the conventional system, the video capture application 101 depends on the performance of the PC 100, so that it may take a long time to capture. There is a problem in that there is a possibility that a short delay occurs and the operability is impaired. In addition, there is a problem that moving images cannot be transmitted due to the time taken for capture.
JP-A-5-249931

  The present invention comprises a computer and a projection type video display device connected to the computer via a network, and transmits a video from the computer to the projection type video display device and projects it onto the projection type video display device. An object of the present invention is to provide a video display system capable of smoothly displaying still images and moving images.

  Means for solving the above-mentioned problem is a receiving-side unit comprising receiving means for receiving a compressed video signal wirelessly transmitted by the transmitting-side unit, and video expanding means for expanding the compressed video signal received by the receiving means. Is connected to the outside of the projection type video display device, and the compressed video signal wirelessly transmitted by the transmission side unit is expanded by the reception side unit and transmitted to the projection type video display device. It is characterized by being.

In the means for solving the above-mentioned problems, the video decompression means of the receiving unit may be constituted by hardware.

According to the first aspect of the invention, it is possible to smoothly display still images and moving images of compressed video data transmitted by the transmission side unit.

  Further, according to the configuration of claim 2 of the present invention, the receiving side unit has an effect that it can be applied regardless of the type of the projection display apparatus.

  Embodiments of the present invention will be described below with reference to the drawings.

  FIG. 1 shows the appearance of a video display system of this embodiment using a PC and a liquid crystal projector.

  The video display system includes a PC 100 and a liquid crystal projector 200. Connected to the PC 100 is a transmission side unit 30 having a video compression function and a wireless LAN card function. The liquid crystal projector 200 is connected to a receiving side unit 40 having a video expansion function and a wireless LAN card function.

  The VGA connector 30a of the transmission side unit 30 is electrically connected to the VGA connector 100a of the PC 100 by being connected to the VGA connector 100a (see FIG. 2) of the PC 100. The VGA connector 100a of the PC 100 is a D-sub 15 pin, and the VGA connector 30a of the transmission side unit 30 has the same shape.

  FIG. 2 shows a pin arrangement of the VGA connector 100a of the PC 100. In FIG. 2, P1 to P15 indicate pins of the VGA connector 100a. Table 1 shows a relationship between each pin of the VGA connector 100a and a signal name.

  The analog RGB signals from the PC 100 are a pin P1 (for red video signal transmission), a pin P2 (for green video signal transmission), a pin P3 (for blue video signal transmission), a pin P13 (for horizontal synchronization signal transmission) and a pin P14. It is sent to the transmission side unit 30 via (for vertical synchronization signal transmission).

  FIG. 3 shows the configuration of the video display system of FIG.

  The transmission side unit 30 connected to the PC 100 includes a video capture 31, an MPEG encoder 32, and a transmission unit 33. The Video Capture 31, the MPEG encoder 32, and the transmission unit 33 are each configured by hardware. The power of the transmission side unit 30 may be supplied from a USB port of the PC 100, or may be supplied from an AC adapter or a secondary battery.

  The receiving side unit 40 connected to the liquid crystal projector 200 includes a receiving unit 41 and an MPEG decoder 42. The receiving unit 41 and the MPEG decoder 42 are each configured by hardware.

  The analog RGB signal output from the PC 100 is sent to the Video Capture 31 in the transmission side unit 30 via the VGA connector 100a and the VGA connector 30a. The Video Capture 31 discriminates the type of the input analog RGB signal based on the resolution, vertical frequency, horizontal frequency and dot clock of the input video signal, and then samples the input video signal at the sampling frequency corresponding to the discriminated type. To convert the input video signal into digital video data.

  Digital video data obtained by the Video Capture 31 is compressed by the MPEG encoder 32. The compressed video data is wirelessly transmitted by the transmission unit 33 in accordance with the IEEE 802.11b wireless standard.

  The compressed video data wirelessly transmitted from the transmission side unit 30 is received by the reception unit 41 in the reception side unit 40. The compressed video data received by the receiving unit 41 is sent to the MPEG decoder 42 and decompressed (restored). Digital video data obtained by the MPEG decoder 42 is sent to the liquid crystal projector 200. The liquid crystal projector 200 enlarges and projects the video data sent from the receiving side unit 40 on the screen.

  In the above embodiment, the receiving side unit 40 is attached to the outside of the liquid crystal projector 200. However, only the receiving unit 41 in the receiving side unit 40 is attached to the outside of the liquid crystal projector 200, and the MPEG decoder 42 in the receiving side unit 40 is installed. You may make it incorporate in the liquid crystal projector 200. FIG.

  According to the above embodiment, the video signal from the PC 100 is compressed by the MPEG encoder 32 in the transmission side unit 30 and then transmitted to the reception side unit 40 mounted on the liquid crystal projector 200 via the network. Since the compressed video data is expanded by the MPEG decoder 42, the transmission speed and transmission quality of the video data are improved, and still images and moving images can be displayed smoothly.

  Further, since the transmission side unit 30 and the reception side unit 40 in the above-described embodiment perform compression and expansion of images by hardware processing, these units 30 and 40 are related to the type of PC and projector and the OS of the PC. Not applicable.

It is a perspective view which shows the external appearance of the video display system of a present Example using PC and a liquid crystal projector. It is a schematic diagram which shows the pin arrangement of the VGA connector 100a of PC100. It is a block diagram which shows the structure of the video display system of FIG. It is a perspective view which shows the external appearance of the conventional video display system using PC and a liquid crystal projector. It is a block diagram which shows the structure of the video display system of FIG.

Explanation of symbols

30 Transmitter unit 31 Video Capture
32 MPEG encoder 33 Transmitter 40 Receiver unit 41 Receiver 42 MPEG decoder 100 PC
200 LCD projector

Claims (2)

A receiving unit comprising a receiving means for receiving a compressed video signal wirelessly transmitted by the transmitting side unit and a video expanding means for expanding the compressed video signal received by the receiving means is provided outside the projection type video display device. A projection-type video display characterized in that a compressed video signal that is connected and wirelessly transmitted by a transmission-side unit is expanded by a reception-side unit and transmitted to a projection-type video display device apparatus. 2. The projection type video display apparatus according to claim 1, wherein the video expansion means of the receiving side unit is constituted by hardware.

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