DE19942709C2 - Image recording device for an image processing system and method for reading out image data from an image recording device - Google Patents

Description

The invention relates to an image recording device for image processing system and a method for reading out image data from a Image pickup device using the JPEG compression for mat matches.

Graphic images in JPEG format (Joint Photographic Experts Group) are images that are created using a number of algorithms for com priming can be reduced by the ISO (International Standard Or ganization) for still images as the standard for compression have been financed. The mentioned JPEG algorithm (ITU-T Rec.T.81 / ISO / IEC 10918-1) does not allow changing the parameters of the coding while encoding a single image. Therefore every Sche ma, which corresponds to JPEG and works accordingly, an image Process at least twice. The first pass serves the complexi figure  to determine and the other pass serves to actually code out respectively.

Currently, the JPEG algorithms are implemented as an integrated circuit (IC) in the manufacturer's / distributor's hardware for non-moving image compression, for example in a scanner, or a host computer is used to speed up the compression of the image and the To increase decompression of the image. In Fig. 1, a block diagram of a conventional device for JPEG compression device is shown. Referring to FIG. 1, the JPEG compression device 12, which is implemented as an IC, receives the digital image data from a memory (RAM) 15 . The memory 15 can be a RAM (Random Access Memory) or another type of memory. The memory 15 receives the data from an analog / digital converter 11 .

Since the JPEG compression (the control scheme for JPEG) has to process the image at least twice, and since the data streams of the compression and the transmission are different, the JPEG compression device 12 has a built-in memory 13 and a specially provided memory 14 , usually a RAM in which the image data is temporarily stored during compression. In a normal JPEG compression algorithm, for example, the basic compression unit is an (image) block of 8 × 8 pixels. Accordingly, the memory 13 can store 8 × 8 pixels at a time. On the other hand, the image data is transferred from the memory 15 to the memory 14 line by line in order. Once memory 14 is full, the image data is transferred to memory 13 as an image block to compress the image.

The disadvantage of this procedure is that a separate memory 14 is required in order to be operated with the compression unit of the memory 13 . For reasons of cost and high efficiency, it would be desirable that the memory 14 can be omitted.

DE 40 26 523 A1 relates to a method and an apparatus for image data ten transformation and shows an encoder that has a line-to-block con verter includes. This line-to-block converter receives zei at its input lenwise digital image signals, for example, from a received TV signal can be derived. From this digital image signals become according to known methods blocks of pixels formed, the two dimensional DCT transformation.

DE 689 16 038 T2 relates to an adaptive transformation coding system stem that has a line-to-block converter as the input circuit, the di receives digital image data line by line in order to send digital block image data to a Output DCT transformation.

From "Digital Image Coding", Ohm, J.-R., Springerverlag, Berlin Heidelberg, 1995, pages 430 to 433, a JPEG encoder is known, which according to the se quantitative DCT mode works. This known JPEG encoder has one Input circuit which receives the digital image data and a block division of the brightness and color components.

Neither of these documents indicate how an input circle or a Line-to-block converter must be designed in terms of hardware.

The invention has for its object an image recording device for to create an image processing system that allows a separate to be able to save the same amount of memory as a conventional Integrated circuit trained JPEG compression device is done.

This object is ge by the image recording device according to claim 1 solves.

According to the invention is in an image recording device with an image reading unit and analog / digital converter instead of a simple memory with optional em access provided an interface device that a Speicherver administration by means of a read control unit and an output control unit performs the digital image data block by block to a JPEG compression be issued. This makes it possible for one conventional JPEG compression device, which on a chip as inte grierte circuit is formed, without additional memory for Zwi save the digital image data for a line-to-block conversion used for image data compression in an image processing system.

In order to output the image data, the read control unit reads a predetermined number of image lines from the data output of the analog / digital converter and stores this image data in a memory. This memory can store the same number of image lines as the memory that is built into the JPEG compression device. If the compression unit is an 8 × 8 image block, then the memory can store 8 lines of image data. After reading the predetermined number of lines of the image data, the read control unit generates a control signal, outputs it to the output control unit to read out an image block from the memory, in order, and sends each image block to the JPEG compressor, also in row. Since the image block is the same size as the compression unit required by the JPEG compression device, the image block can be transferred directly to the JPEG compression device in order to compress the data without having to access a separate memory. As a result, the cost of a separate memory can be saved.

The invention is explained in more detail below with reference to the drawings. This time gen in:

, Is illustrated in the schematic structure of a conventional JPEG compression device Figure 1 is a functional block diagram.

Fig. 2 is a functional block diagram showing the structure of the interface device according to a preferred embodiment of the present invention; and

Fig. 3 is a flow chart showing the inventive method according to the preferred embodiment according to the present invention.

A preferred embodiment according to the present invention will follow which are described. This embodiment is described only by way of illustration. The professional can make changes to it without departing from the scope to remove the present invention.

With reference to FIG. 2, the interface device 21 is explained according to the prior invention. This interface device 21 comprises a read control unit 22 , an output control unit 23 , and a memory unit or a memory 24 . The interface device 21 is a modular unit that establishes communication between the analog / digital converter 26 and the JPEG compression device 27. The interface device 21 can be adapted to a JPEG compression device 27 in a processing device for still images, such as a scanner or a digital camera, in order to compress the images. The interface device 21 receives the image data from the output of the analog / digital converter 26 and transmits the image data to the JPEG compression device 27 when the image data are to be compressed or compressed. If the image data are not to be compressed, the interface device 21 can transmit the image data to an input / output interface 25 in order to send the image data to a host computer which further processes the images.

On the other hand, the analog / digital converter 26 receives the image data from the (image) reading unit 28 . The reading unit 28 can be a CCD, an image-touching image sensor or a digital camera.

In the interface device 21 , the read control unit 22 reads out a predetermined number of image lines from the image data of the analog / digital converter 26 and stores the image data in the memory 24 . The memory 24 can store the same number of image lines as the storage unit 271 which is built into the JPEG compression device 27. If, for example, the compression unit is 8 × 8 pixels in size, the memory can store 24 image data from 8 image lines. After the end of reading these 8 image lines, the read control unit 22 generates a control signal 221 , which is provided for the output control unit 23 , so that it sequentially reads the 8 × 8 pixel image block from the memory 24 and stores this image block in the memory 271 . Since this image block corresponds exactly in size to the size of the compression unit of the JPEG compression device, the image block can be sent directly to the JPEG compression device 27 so that it performs the compression without having to access a separate memory. As a result, the cost of a dedicated memory can be saved.

The flowchart of FIG. 3 shows the operation of the interface device according to the invention. The steps are explained as follows:
301: setting I = 0, J = 0, N = number of image lines of a compression unit, M = number of pixels of the width of a compression unit;
302: Reading the data at the output of the analog / digital converter, setting I = I + 1;
303: storing the image data in a memory in order;
304: decide whether I = N? If so, go to step 306 ; If not, go to step 302 ;
305: Decide whether the image data should be compressed? If so, go to step 306 ; If not, go to step 307 ;
306: Setting J = M and reading J. N image blocks from memory and transfer the image block to the JPEG compression device; Set M = M + M;
307: Send the image data in the storage unit to a host computer for further processing.

In summary, it can be stated that the device according to the invention and the inventive method, which or which with the JPEG Compression format matches, is able to get the image data from the Output of an analog / digital converter and sent to a JPEG Forward compression device that in a processing unit for non- moving pictures is provided. The interface device also acts according to the present invention as a (temporary) memory that differenti Chen processed data rates for compression and transmission. Subsequently requires a JPEG compression device with this interface device no separate memory for data exchange.

While the present invention with reference to the illustrative embodiment form has been described, the description is not intended to be limiting watch. Numerous changes to and combinations with the explained Embodiment, as well as other, further embodiments according to the vorlie The present invention can be carried out by a person skilled in the art if he uses the present invention studying writing. Therefore, the scope of protection is essentially determined by the fol determined claims.

With regard to features of the invention not explained in detail above is explicitly referred to the claims and the drawings sen.

Claims (10)

1. Image recording device for an image processing system, with

• an image reading unit ( 28 ) for taking a single image,
• - An analog / digital converter ( 26 ) which is connected to the image reading unit ( 28 ) to convert frame data into digital image data, and
• - An interface device ( 21 ) for connecting a JPEG compression device (27), the interface device ( 21 )
• - A read control unit ( 22 ) which is connected to the analog / digital converter ( 26 ) in order to read out a predetermined number of picture lines from a data output of the analog / digital converter ( 26 ) sequentially and to generate a control signal after the reading of the predetermined number of image lines has ended,
• - A memory ( 24 ), which is connected to the read control unit ( 22 ) to store the predetermined number of image lines, and
• - An output control unit ( 23 ) which reads an image block sequentially from the memory in response to the control signal and forwards this image block to the JPEG compression device (27).

2. Image recording device according to claim 1, characterized in that the image reading unit ( 28 ) is a CCD chip. 3. Image recording device according to claim 1, characterized in that the image reading unit ( 28 ) is a contact image sensor. 4. Image recording device according to claim 1, characterized in that the image reading unit ( 28 ) is a digital camera. 5. Image recording device according to claim 1, characterized in that the memory ( 24 ) is a RAM. 6. Image recording device according to claim 1, characterized net that the predetermined number of image lines is eight and that of the image block consists of 8 × 8 pixels.   7. Image recording device according to claim 1, characterized in that the output control unit ( 23 ) with an input / output connection to a host computer can be connected to transmit the data from the output of the interface device ( 21 ) to a host computer to be able to. 8. Image recording device according to claim 1, characterized in that the size of the memory ( 24 ) is determined by the compression format of the JPEG compression device (27). 9. A method for outputting image data from an image recording device with the following steps:

• - Sequential readout of a predetermined number of image lines from a data output of an analog / digital converter ( 26 );
• - storing the predetermined number of image lines in a memory ( 24 );
• - Sequential reading of an image block of predetermined size from the memory ( 24 );
• - Transferring the image block to a JPEG compression device (27) when the image data are to be compressed.

10. A method for outputting image data from an image pickup device with the following steps:

• - Sequential readout of a predetermined number of image lines from a data output of an analog / digital converter ( 26 );
• - storing the predetermined number of image lines in a memory ( 24 );
• - Sequential reading of an image block of predetermined size from the memory ( 24 ); and
• - Forwarding the image block to an input / output interface device ( 25 ) to send the image block to a host computer when the image data are not to be compressed.