JPH02254889A - Data transmission method - Google Patents

Abstract

PURPOSE: To reduce a transmission time of image information without deteriorating image quality by converting and modulating an image signal to be sent into an analog image signal and transmitting the processed image signal through a channel whose band width is limited with respect to the band width of the image signal and demodulating the received image signal and converting the demodulated signal into a digital image signal at a reception stage. CONSTITUTION: Image information is generated in a recorder 5. The image information is fed to an A/D converter 6 and its output signal is fed to, e.g. a computer 7. The computer applies discrete cosine transformation to a signal component to convert it into a spectrum component. Succeedingly the image signal is given to a compression circuit 8, in which its data speed is reduced. An A/D converter 12 is provided to an output side of a demodulation device 11. Digital image information is fed to an expander 13 to generate an image to be reproduced, and then the expanded information is fed to an inverse discrete cosine transformation device 14. An output signal from an inverse discrete cosine transformation device 15 is fed directly to a D/A converter 16 or an image screen 17 depending on the image reproducing device connected to the system.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of Industrial Application In FIA, the image signal to be transmitted is digitized in the transmission stage and roughly converted into spectral components using, for example, discrete cosine transform. The present invention relates to a data transmission scheme, for example for image transmission and/or audio transmission, in the form of a reduced rate.

Conventional technologyJapanese TTC (J, T-40-10)”
5 standard forstill-video
communication over an ana
each pixel of the data-reduced digital image is transmitted to the "logtelephone network" in 16 shades of gray, using 8 amplitude levels and 2 phase levels for the 16 shades of gray. Such an image transmission system is known. This image signal of the fox is transmitted via a normal telephone transmission line. For that purpose, the normal voice transmission is interrupted, an identification signal is transmitted, and then For about 10 to 12 seconds, the image information modulated as described above is transmitted.

Although this transmission method guarantees reliable image transmission, it has the drawback that the caller cannot perform multiple communications over a relatively long period of time.

Problems to be Solved by the Invention Therefore, an object of the present invention is to shorten the transmission time of image information while maintaining the same image quality.

Means for Solving the Problem This problem consists in ensuring that the image signal to be transmitted is converted into an analog image signal, modulated and transmitted via a channel limited with respect to the bandwidth of the image signal, and This problem can be solved by demodulating and converting the image signal into a digital image signal at the receiving stage, and by roughly performing signal processing on the image signal in the opposite direction to that at the transmitting stage. Advantageous embodiments are described in the subclaims.

Advantages of the Invention It is not possible to further compress a digital image signal of the same quality. According to the invention, therefore, in the transmission stage the image signal present in digital form is converted into an analog image signal before transmission. This analog image fault signal is then modulated and transmitted via a transmission path. Analog image signals can be transmitted using several width-phase modulations. Transmission by frequency modulation is also possible. At the receiving stage, the arriving image signal is demodulated and further inversely converted into a digital image signal. This digital image signal undergoes signal processing opposite to that at the transmitting stage. The decompressed image is then guided to the receiving side's image plane.

Shadow of transmission line failure? In order to avoid or reduce ##, data correction can be performed in the case of the present invention. For this purpose, for example, a parity bit can be added to the digital image signal on the transmitting side, which is evaluated on the receiving side.

Self-correcting codes can also be used.

Description of examples The present invention will be explained in detail below using the drawings.

FIG. 1a shows a known data transmission system in which an image recorded by a recording device 1, which image has a reduced data rate, is sent to a modulator 2. In FIG. This fai image is sent to the receiving device via the transmission line. In the receiving device, the received image is demodulated by the demodulator 3 and sent to the image plane 4. As is clear from the time chart of FIG. 1b, the call SP is interrupted for the transmission of image information. Call SP when image transmission is finished
Can be fully restarted.

FIG. 2a shows data transmission according to the invention via a telephone transmission line. Image information is formed in the recording bag f5.

This image information is sent to an analog/digital converter 6, the output signal of which is sent to a calculator T, for example. The calculator converts the signal components into all spectral components using a discrete Cobbin transform. Subsequently, the data rate of the stroke number signal a is reduced in the compression circuit 8. The thus reduced image is sent to a digital/analog converter 9 whose output signal is sent to a modulator 10. This modulated image signal is sent to a receiving device via a transmission section. A demodulator 11 is provided at the input stage of the receiving device, and an analog/digital converter 12 is provided at the output side. The digital image information is sent to a decompressor 13 and then to an inverse discrete cosine transform device 14 to form the image to be reproduced. The output signal of the inverse discrete cosine transform device 15 can be sent directly to the digital/analog converter 16 or to the screen 11, depending on the connected image reproduction device. As is clear from FIG. 2b, the solution according to the invention significantly reduces the interruption times of wide calls. The interruption of the call sp due to image transmission is approximately one-eighth of the time required without the present invention.

Note that the configuration of the present invention will be summarized below.

In known image transmission systems, compressed images of data can already be transmitted in digital form over telephone lines. In the receiving device, this digital image information is expanded and reproduced on an image plane. During the period when images are being transmitted, the transmission line for audio transmission is cut off and it gets hot.

In contrast, according to the present invention, in order to reduce the image transmission time interval, compressed digital information is converted into an analog signal in a D/A converter, further modulated, and then transmitted through a transmission line. do.

The signal arriving at the receiving device is demodulated and guided to the A/D converter. The resulting digital image signal is then expanded and further guided to the image plane via a D/A modulator. With this configuration of the present invention, the image transmission time interval is significantly reduced, as shown in FIG. 2b.

As modulation formats, analog image signals can be transmitted using amplitude modulation and phase modulation. Analog signals can also be transmitted by frequency modulation. Furthermore, the image signal is sent to the image plane. The image signal can also be provided with error prevention features.

Effects of the Invention The data transmission via the telephone transmission line according to the present invention makes it possible to reduce the transmission time of image information without deteriorating the image quality.

[Brief explanation of drawings]

FIG. 1a is a block diagram of a known data transmission method via a telephone transmission line, FIG. 1b is a time chart thereof, and FIG.
The figure shows a block diagram of a data transmission system via a telephone transmission line according to the present invention, and FIG. 2b shows a time chart of data transmission according to the present invention. 1.5...Recording device, 2.1o...Modulator, 3.1
1... Demodulator, 4.11... Image plane, 6.12...
・Analog/digital converter, 1...Calculator, 8・
... Compression circuit, 9.16... Digital/analog converter, 13... Expander, 14.15... J! Ii discrete cosine transform device

Claims (1)

[Claims] 1. In a method of transmitting data in a format in which the image signal to be transmitted is digitized and further converted into spectral components at the transmission stage, and the data rate of the image signal is reduced, the image signal to be transmitted is an analog image. converting into a signal, modulating it and transmitting it through a channel limited with respect to the bandwidth of the image signal, and further causing the received image signal to be demodulated and converted into a digital image signal at a receiving stage; Furthermore, the data transmission system is characterized in that the image signal is subjected to signal processing opposite to that in the transmission stage.