JPH05252384A - Method for transmitting color still image - Google Patents

Abstract

PURPOSE:To make it possible to transmit a color still image between different kinds of image processors. CONSTITUTION:At the time of transmitting a color still image, an image format and image size stored in a transmitting side color still image processor 1 are set up, negotiation between transmitting and receiving sides is executed by a communication protocol, and when the image format and image size of the receiving side are different from that of the transmitting side, a transmitting side image transmitter 2 executes image conversion processing in accordance with the image format and image size of the receiving side e.g. and the converted image is transmitted to a receiving side image transmitter 3, which transmits the received image to a receiving side color still image processor 4.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention enables high-definition color still image transmission between various color image input / output devices such as digital copying machines, scanners and printers, and various types of color still image processing devices such as workstations. And a color still image transmission method.

[0002]

2. Description of the Related Art A conventional color still image transmission method is communication in which a dedicated communication device is connected to a dedicated image processing device on both the transmitting and receiving sides. Therefore, it is not necessary to pay particular attention to the image format and image size of the color image. However, it has been very difficult to transmit to an image processing apparatus other than a dedicated apparatus due to the existence of many image formats and the difference in image size.

[0003]

However, with the advent of various color still image processing apparatuses, there is an increasing demand for transmission between various image processing apparatuses. In order to enable this, it is necessary to have a function to absorb the differences in the image formats and image sizes that can be handled.

It is an object of the present invention to provide a color still image transmission method capable of transmitting a color still image between image processing apparatuses of different models.

[0005]

According to a color still image transmission method of the present invention, a color still image from a color still image processing device on the transmission side is transferred to an image transmission device on the reception side via the image transmission device on the transmission side. In the color still image transmission method of transmitting and inputting to the color still image processing device on the receiving side, when transmitting a color still image, the color still image processing device on the transmitting side stores the data in the color still image processing device on the transmitting side. Set the image format and image size of the image being processed, negotiate between sending and receiving by the communication protocol, and if the image format and image size of the receiving side are different from those of the sending side,
Perform image conversion processing on the image transmission device on the transmission side according to the reception side, and then transmit images, or perform image conversion processing on the image transmission device on the reception side according to the reception side. It's something that you do.

Further, the image conversion processing is divided between the color still image processing apparatus and the image transmission apparatus.

[0007]

According to the present invention, there is no communication function, and
It becomes possible for the operator to transmit a high-definition color still image between various color still image processing devices having different image formats without being aware of the difference in image format and image size.

Further, since the image transmission apparatus and the color still image processing apparatus share the image conversion processing, the processing becomes quick.

[0009]

FIG. 1 is a block diagram for explaining an embodiment of the present invention, FIG. 2 is a diagram showing the transfer of main signals for explaining the operation thereof, and FIG. 3 is a transmitting side. It is a flow chart showing a flow of processing between receiving side image processing devices.

In FIG. 1, 1 is a color still image processing apparatus on the transmitting side, 4 is a color still image processing apparatus on the receiving side,
Reference numerals 2 and 3 are adapter-type image transmission apparatuses of the present invention, 5 is a color scanner connected to the transmission side color still image processing apparatus 1, and 6 is a color printer similarly connected. Reference numerals 7 and 9 denote interfaces for connecting the image transmission apparatuses 2 and 3 to the color still image processing apparatuses 1 and 4, 8 denotes a communication line, and 10 denotes the color static image processing apparatus 1 on the transmission side, a color scanner 6, and a color printer. This is an interface for connecting the seven.

The operation of one embodiment of the present invention will be described below with reference to FIGS. Color still image processing apparatus 1 on transmission side
Then, a color image is input using the color scanner 5, various processes are performed, and output to the color printer 6 or the like. When an image subjected to such a process is encoded by JPEG encoding or the like and transferred to a color still image processing device 4 (for example, a digital color copying machine) on the receiving side of a different model installed at a remote place, both devices are used. It is customary that the image attributes differ between the two. Therefore, as shown in FIG. 2, the transmitting function of the transmitting side and the receiving function of the receiving side are transmitted to each other, and the image data is transmitted after informing the other side. FIG. 3 is a flowchart showing FIG. 2 in more detail. Hereinafter, three examples in which the image attributes of the color still image processing apparatuses 1 and 4 on the transmitting side and the receiving side are different will be described with reference to FIGS. 4, 5 and 6.

The color still image processing apparatus 1 on the transmitting side is RG
B, component interleave, RAW data (non-coded data), image size of only 2560 * 1600 pixel image data can be handled, and the receiving side can handle YCbCr, pixel interleave, RAW data, image size 640 * 400.
It is assumed that only the data of can be received. In this case, interleaving, color coordinates, and image size are different, and conversion from the transmission side is more effective in terms of code transmission efficiency. Therefore,
The image transmission device 2 on the transmission side performs color conversion processing, interleave conversion, image size reduction, encoding, and transmission. FIG. 4 shows an example of negotiation processing and image data setting in this case.

That is, the color still image processing apparatus 1 on the transmitting side has image format parameters (RGB, component interleave, RAW data) and image size (2560 * 160) that the image transmitting apparatus 2 can handle.
0) is set, and the image transmission device 2 informs the image transmission device 3 on the receiving side of the parameter and size. The image transmitting apparatus 3 on the receiving side sets the image format size that it can handle to the image transmitting apparatus 3 (YCbCr, pixel interleave, RAW data, 640 * 400), and the image transmitting apparatus 3 transmits the image transmitting apparatus 2 on the transmitting side. Inform the parameter to.

As a result, the image transmitting apparatus 2 on the transmitting side, which recognizes that the image formats and image sizes of the image processing apparatuses 2 and 3 on the transmitting side and the receiving side are different, changes to the image format of the image transmitting apparatus 3 on the receiving side. In addition, interleave conversion processing from component interleave to pixel interleave, RG
Color conversion processing is performed from B to YCbCr, and reduction (thinning) processing is performed from image size 2560 * 1600 to 640 * 400, and encoding is performed before transmission. The image transmission device 3 on the receiving side performs a decoding process, and since the image format has already been converted on the transmitting side according to the receiving side, the image is transferred to the color still image processing device 4 on the receiving side as it is.

As another example of the negotiation mechanism, a plurality of parameter items that can be converted by the image transmission device 2 or 3 are notified to the image transmission device 3 or 2 of the other party, and matching is performed in a predetermined order. There is also a way to convert. An example of this is shown in FIG.

Depending on the image format, it may be advantageous to perform the conversion processing on the receiving side, so the image conversion processing may be performed on the image transmitting apparatus 3 on the receiving side.
An example of this is shown in FIG. Further, these controls may be combined and used.

FIG. 7 shows another embodiment of the present invention. It is assumed that the sender has an image file in the form of RGB, pixel interleave, and raw (RAM) data. On the other hand, it is assumed that the receiving side can receive only in RGB, component interleave, and raw formats. Conversion of color coordinates is easier in the pixel interleaved state. The interleaved conversion can be easily realized in the color still image processing apparatuses 1 and 4 having a file by changing the file reading method, but in the image transmission apparatuses 2 and 3 it is 1
It requires a screen memory, which is a difficult process. Therefore, in the case of this communication, in the color still image processing device 1 on the transmission side,
Color conversion and interleave conversion are performed, and the image transmission device 2 performs JPEG encoding and decoding of the component interleaved image. The negotiation process in this case is shown in FIG. The color still image processing apparatus 1 on the transmission side sends to the image transmission apparatus 2 the format of the file that it has, the function that can be converted from it, and information about whether or not to encode at the time of communication. The image transmission device 2 adds a function that can be processed by itself, for example, color conversion to YCbCr, and transfers it to the image transmission device 3 on the receiving side as transmission function information. In the example of FIG. 7, the transfer timing of this information is the time when the partner function read request is received. A data format that can be received is set in the image transmission device 3 on the receiving side when a reception request is set, and data that matches the data format is sent as information on the transmitting side. In response to this, the color still image processing device 4 on the receiving side
Selects the receiving function. In the case of FIG. 8, there is only one type that comes up as the transmitting side information, which matches the receivable format, so it is selected. As a result, the reception function response information is determined and transferred to the image transmission device 2 on the transmission side. Based on this information, the information necessary for the determination by the color still image processing apparatus 1 on the transmission side is sent to the color still image processing apparatus 1 on the transmission side as partner function information. In accordance with this, communication function settings are made, and color conversion of image data (RGB → RG
B '), data is transferred to the image transmission device 2 while performing interleave conversion (P → C). The image transmission device 2 performs JPEG encoding using the data and transfers it to the image transmission device 3 on the receiving side via the communication line. The image transmission device 3 on the receiving side decodes the data and transfers it to the color still image processing device 4 on the receiving side to enable communication of the color image data.

[0018]

As described above, according to the present invention, the color still image from the color still image processing device on the transmitting side is transmitted to the image transmitting device on the receiving side via the image transmitting device on the transmitting side, and the color still image on the receiving side is transmitted. In the color still image transmission method that can be input to the color still image processing device, when transmitting the color still image, the image of the image accumulated in the color still image processing device on the transmission side via the color still image processing device on the transmission side. When the format and image size are set and the transmission and reception are negotiated according to the communication protocol, and the image format and image size of the receiving side are different from those of the transmitting side, the image conversion processing is performed by the image transmitting device on the transmitting side according to the receiving side. The image conversion processing is performed after the image transmission is performed, or the image conversion processing is performed by the image transmission device on the receiving side according to the receiving side after transmitting the image. It is possible to perform optimal processing.

Further, since the color still image processing apparatus and the image transmission apparatus share the image conversion processing,
Quick processing can be performed with a simple configuration.

[Brief description of drawings]

FIG. 1 is a block diagram of a communication system used in the present invention.

FIG. 2 is a diagram showing a schematic procedure of communication control in the color still image transmission method of the present invention.

FIG. 3 is a flowchart showing an embodiment of the present invention.

FIG. 4 is a diagram showing an example of actual negotiation control according to an embodiment of the present invention.

FIG. 5 is a diagram showing another example of actual negotiation control according to the embodiment of the present invention.

FIG. 6 is a diagram showing still another example of the actual negotiation control according to the embodiment of the present invention.

FIG. 7 is a flowchart showing another embodiment of the present invention.

8 is a diagram showing an example of actual negotiation control in the embodiment of FIG.

[Explanation of symbols]

 1 Color Still Image Processing Device on Transmission Side 2 Image Transmission Device 3 Image Transmission Device 4 Color Still Image Processing Device on Reception Side 5 Color Scanner 6 Color Printer 7 Interface 8 Communication Circuit 9 Interface 10 Interface

Claims (2)

[Claims] 1. A color for transmitting a color still image from a color still image processing apparatus on the transmitting side to an image transmitting apparatus on the receiving side via an image transmitting apparatus on the transmitting side and inputting the color still image processing apparatus on the receiving side. In the still image transmission method, when transmitting a color still image, the image format and the image size of the image stored in the color still image processing device on the transmission side are set via the color still image processing device on the transmission side. , If the image format or image size of the receiving side is different from that of the transmitting side by performing the negotiation between transmission and reception according to the communication protocol, the image conversion processing is performed by the image transmitting device of the transmitting side according to the receiving side, and then the image conversion of the image is performed. Color still image transmission method, characterized in that the image conversion processing is performed by the image transmission device on the receiving side in accordance with the receiving side after transmitting or transmitting the image. . 2. A color for transmitting a color still image from the color still image processing device on the transmitting side to the image transmitting device on the receiving side via the image transmitting device on the transmitting side and inputting it to the color still image processing device on the receiving side. In the still image transmission method, when transmitting a color still image, the image format and the image size of the image stored in the color still image processing device on the transmission side are set via the color still image processing device on the transmission side. If the image format and image size of the receiving side are different from those of the transmitting side, the color still image processing apparatus of the transmitting side and the image transmitting apparatus of the transmitting side share the role, according to the communication protocol. Image transmission processing is performed before image transmission, or after the image transmission is performed, the image transmission device and the color still image processing device on the reception side are matched to the reception side. A method for transmitting a color still image, characterized in that the image conversion processing is carried out by the storage device.