JPS5810261A - Picture processing system - Google Patents

Abstract

PURPOSE:To synthesize a picture displayed on the surface of a display with a picture provided separately and recorded on a recording medium to a picture memory as a picture signal. CONSTITUTION:A picture memory M stores a picture to be displayed on a display device. Horizontal and vertical deflection sections H and V generate an electric signal to deflect electron beam horizontally and verically. Horizontal and vertical A/D converters S1 and S2 quantize electric signal from the horizontal and vertical deflection sections. An intensity modulation section N converts picture information stored in the picture memory M into the intensity on the display screen. A picture detection section F converts the electric signal read with the said principles into a digital signal. A switching section of picture input display A switches the reading and display of the picture.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to an image processing method, and particularly to an image processing method for inserting and laying out images on a display of a word processor or the like.

Conventional technologies include (1) display and light vent, (2)
) Some devices combine a display with a television camera, CCD, photodiode, etc. (1) is used for selecting items displayed on a screen or inputting coordinates on the screen, but cannot be applied when there are many IP1 reports such as images. In (2), all images can be created manually, but since the display screen and the image input section are physically separated, the relative relationship between the screen on the display and the input image can be controlled using other auxiliary means (such as a keyboard). must be entered separately.

The present invention has been made in view of these points, and provides an image processing method that can synthesize an image displayed on the display surface of a display device and an image recorded on a separately prepared recording medium with a simple configuration. The purpose is to

Preferred embodiments of the present invention will be described in detail below with reference to the drawings.

FIG. 1 shows a diagram of the principle of the present invention. In this figure, a cathode ray tube (CRT) will be described as an example of a display mechanism. In this figure, the CRT includes an electron gun G, a vertical polarization section v, a *flat polarization section H1, and a phosphor layer K.

Equipped with glass plates T and k. Its operation is the same as a normal CRT. TI+T4 is a pair of flat transparent electrodes.

D is a photoconductor layer and L2 is a glass plate. Next, a mechanism for reading images to be added for composition will be described. As an example of an image, if the original Pt1 in Figure M1 is brought into close contact with the glass plate L2, the CRT part mentioned earlier will be displayed. 'i Operates all parts of the phosphor to emit light. Assume that there is an electron beam at position (2), this electron beam collides with the phosphor and emits all light A.

The element A is the transparent electrode T1. Photoconductor D, glass plate Lt
etc. 1 no C1 original pick P's black lI! Absorbed into II-cum-B.

Next, assuming that the electron beam is located at the position (■), this is the white pixel WK of the original P, as described above. However, the light B is reflected four times by the white pixel and returns onto the photoconductor D again. Therefore, if we look at the light violet in the photoconductor D, the white If
The element t near iixw is larger than the amount of light near the black pixel 13. When this photoconductor D is connected to a voltage (I) with a voltage of 1yj and V, the current flowing through the photoconductor D is I!7+ when the electron beam is at each of ■ and ■.
The following relationship holds true for I■.

■■<I■ (5) That is, the black and white image on the document is converted into a current flowing by the voltage Vs biasing the photoconductor D. Note that in order to determine whether the pixel is a white pixel or a black pixel based on this current (2), the current (I) at point (2) where the document P is not placed is used and the difference is used.

FIG. 2 is a configuration diagram of an embodiment of the present invention.

The image memory M stores images to be displayed on the display section. The horizontal and vertical deflection units H and V generate electrical signals for deflecting the electron beam horizontally and vertically. Horizontal and vertical A/D converters S and S2 t-quantize the electrical signals from the horizontal and vertical deflection sections. The brightness modulation unit N converts the image information stored in the image memo IJM into brightness on the display screen. The image detection section F converts the read electrical signal into a digital signal according to the above-mentioned principle. The image input display switching section A reads an image and switches the display of two images.

3- Next, the operation of this device will be described.

(a) Mode for displaying an image The horizontal deflection section H generates an electric signal that horizontally scans the electron beam. This electrical signal is input to the image input display section C and the horizontal A/D converter S1. The image input display section C scans the electron beam horizontally in accordance with this electric signal.

Further, the horizontal A/D converter S2 performs all-analog digital conversion of this electrical signal and quantizes it.

The quantized digital signal forms part of the address input for addressing the image memory M.

The electrical signal from the vertical deflection section V is treated in the same way. ○ As a result,
The address of the image memory M is updated as the electron beam moves. That is, the bright spot on the display screen of the image input display section C and the data in the image memory M are in a one-to-one relationship.
K correspondence becomes possible. Therefore, the image to be displayed on the image input display section C is stored in the image memory MO data,
The data output of the image memo IjM can be displayed by changing the brightness.

(b) Image reading mode The image input display switching unit A instructs the brightness change w4sNK so that the entire surface of the display screen emits light. When the electron beam scans the display screen horizontally and vertically, the at I/S of the image memory M is updated in the same way as the display mode, and the image detection unit F successively determines whether the black and white image is "X". and write it into the image memory M.

(c) Composite image display mode After performing the operations of the image shallow water mode and the image reading mode described above, this is performed by activating the image display mode again.

The present invention may include the following in addition to the above-mentioned CRT.

1) Plasma display 2) Array of photodiodes 3) Combination of laser and scanner According to the present invention, since recording media such as paper and film can be connected, the layout of images to be synthesized becomes easy.

Further, since the light emitting source for displaying images, the scanning mechanism tube, the light emitting source for reading the image, and the scanning mechanism are shared, the structure can be simplified and economical.

[Brief explanation of the drawing]

#! FIG. 1 is a diagram explaining the operation M1 of the present invention. FIG. 2 is a configuration diagram of an embodiment of the present invention. LSI Lm 'Glass plate, T,, T,:
Transparent electrode, D dual conductor layer, P: Original 1M: Image memo I
J, H: horizontal deflection section, ■=vertical deflection section, N: brightness modulation section, F: image detection section, A: image input display switching section. Agent Patent Attorney Hiroshi Matsuoka

Claims (1)

[Claims] A display device is provided between a memory that stores image data to be displayed, a display device that displays an image based on the data in the memory, and a medium that is arranged in parallel on the display surface of the display device and on which the image of Otohara II'IIi is written. A pair of transparent N-electrode plates to which a constant voltage is applied, a light guide body closely attached to each of the pair of electrodes, and a detection means for detecting a voltage change between the pair of transparent electrodes. image processing, characterized in that the output of the detection means obtained when the original image of the medium is irradiated with display light on the display surface of the display device is input to the image memory as an image signal. method.