DD160600A3 - ARRANGEMENT FOR THE ADAPTIVE CODING OF VIDEO SIGNALS OF ANY TEMPLATES OR SCENES - Google Patents

Abstract

The invention relates to an arrangement for the adaptive coding of video signals of arbitrary originals or scenes, the input of which is possible in image processing complexes or in the remote data transmission between a transmitting or scanning system and a receiving system. With an inventive arrangement, a fast processing of video signals with arbitrary frequency distribution of the gray values, without any restriction being imposed on the type of original and the number of spectral channels, is achieved. A histogram is created using a histogram generator. This is evaluated by the information evaluation unit of the video signals. The video signals are then stored in the transformation unit in accordance with the threshold values set by the information evaluation unit of the video signals, and supplied to the histogram generator and a compression unit of the pixels for further processing. If a correct threshold value determination is determined by the information evaluation unit of the video signals by means of the generated histograms, the compression of the pixels can be carried out in the compression unit of the pixels.

Description

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Title of the invention:

Arrangement for the adaptive coding of video signals of any templates or scenes

Field of application of the invention:

The invention relates to an arrangement for the adaptive coding of video signals of arbitrary originals or scenes, the input of which is possible in image processing complexes or in remote data transmission between a transmission or scanning system and a receiving system. Furthermore, the use of the invention in image processing complexes in the thematic processing of the image information of a large number of visual templates and in the production of databases is possible.

Characteristic of the known technical solutions:

In the automatic processing of visual information with digital methods, there is the need to scan a wide variety of natural scenes as well as existing halftone or graphic templates for the purpose of their further thematic processing with specialized computational means. The scenes or templates are remit using active lighting devices or transmitting light, but also with passive receiving devices as uni sprektral it or oiul tisprektrales image scanned in.digitaler Hasterform. An essential role in the performance of image processing systems is played by facilities

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optimal adaptation, coding of the video information for further computational processing and determination of the statistical properties of the images during the scan. The coding specs are sufficient. In the case of digital raster images, as a rule, multispectral color coding with 8-bit accuracy per pixel and spectral channel up to 1-bit coding per pixel in the case of black-and-white templates. As stated by N.Y. Chu and P.E. Anuta in the journal "Photogrammetric Engineering and Remote Scanning" vol. 45 pp. 507-515, colored templates can be advantageously encoded using statistical methods of multispectral classification. Two other institutions, such as those from the literature SPLE Proceedings vol. 155-01 and DD-PS 140 092, allow the processing of binary images or templates with special color compositions, thus greatly reducing the universality of the facilities. The devices described in DE-AS 26 36 093 26 369 and DE-OS 30 11 553 allow a real-time adaptation of the pixel coding with respect to an immediate visual image analysis by a trained trained observer or operator. Both in the arrangement of N.Y. Chu and P.S. Anuta and in the arrangement of DE-OS 26 09 648 there is a sampling of Farbin-.

formations with 8 bit. In the above methods, the picture signals are digitized with an 8-bit width. A reduction to the bit width required in a storage of an image processing complex is not provided. It leads to a high requirement for storage space for the raster-coded image information and requires a high expenditure of computation time in converting the raster-coded image information into compact coded thematic data.

Object of the invention ·:

The aim of the invention is a fast processing of> 5 video signals with arbitrary frequency distribution of

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To ensure gray scale values without restricting the type of template and the number of spectral channels.

Essence of the invention:

The invention has for its object to provide a system for adaptive encoding of video signals of any templates or scenes au, which limits the information content of the video signals to the necessary for the processing Um- 'beginning.

According to the invention, this object is achieved in an arrangement for the adaptive coding of video signals of any templates or scenes with a digitizing device and a subsequent image processing device, wherein in the signal flow of the complete processing a transforation

^; 15, a histogram generator and an information evaluation unit of the video signals are present, achieved by arranging the transformation unit, the histogram generator and the information evaluation unit of the video signals between the digitizer and the image processing unit so that one compression unit of the pixels is present. consisting of a selector switch, a mode control and at least two compression stages, the selector switch eingangssei tig me the transformation unit, from gangssei tig each with a Korapressionsstufe and via its control line input with the mode control has a connection that a connection between the information evaluation unit of the video signals and the Mode control for the transmission of a control command depending on the number of accumulation modes 0 is present. and that also the compression stages an electronic control unit for filling the _zu to be processed data word with the compressed pixels is arranged downstream. It proves to be advantageous if, on the one hand, a

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is present. with which an optional reading out of the content of the Tr ansf orniati onssinheiten and ristogram generators can be made.

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The essential advantage of the invention is the limitation achieved by the compression of the information content of the video signals to the extent necessary for the task-related evaluation. At the same time, the transformation unit can achieve a contrast enhancement of the video signals, which is advantageous for the evaluation. By using the compression unit of the pixels with multiple compression stages, a substantial reduction of storage capacities is achieved. On the one hand, this involves shorter transmission times to the pole devices, in that either the word length per pixel is shorter or the number of pixels which are in a word to be transmitted becomes greater. On the other hand, the compressed data can be optimally assembled into a database for further use in an image processing complex.

A particular advantage of the invention is that a multi-channel, color sequential or color-parallel scanning of colored templates or scenes in different spektra-1 en channels can be performed. This is particularly important that in each channel, a transformation unit and a histogram generator are available. Thus, it is possible for each color or spectral channel a thematic

Ausführungsbeisniel:

The invention will be explained in more detail below with reference to an embodiment v / ground. 1 shows a basic structure of an arrangement for adaptive coding in the accompanying drawings,

2 shows a basic structure of the transformation units.

3 shows a basic structure of the histogram generators. 4 shows a basic structure of the information evaluation unit of the video signals and

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5 shows a basic structure of the compression unit of the pixels.

In Fig. 1 the basic structure of the arrangement according to the invention is shown. In the signal path of the video signal are between the digitizer 5 and the image processing device 6, a transformation unit 2 and a compression unit of the pixels 4. The compression unit of the pixels 4 may be connected to a plurality of transformation units 2, since each scan channel, a transformation unit 2 is required.

Also, a histogram generator 3 is then available for each sampling channel. An information evaluation unit of the video signals 1 is logically connected to each transformation unit 2 with the compression unit of the pixels 4 and with each histogram generator 3. Each transformation unit 2 is logically coupled to the associated histogram generator 3. Bine further connection exists between the histogram generator 3 and the compression unit of the pixels 4.

FIG. 2 shows the construction of the transformation unit 2, which consists of a 4 χ 255 χ 8 loadable memory 23 loadable by the information evaluation unit of the video signals 1, a zero multiplexer 21 and a multiplexer one 22. The multiplexers zero 21 and one 22 are connected via the control lines 100 to the digitizer 5 and via the control lines 101 to the information evaluation unit of the video signals 1. According to the embodiment, the 4 χ 255 χ S bit structured and readable by the information evaluation unit of the video signals 1 loadable memory 23 represents four programmable threshold, each with the common multiplexer zero 21 and multiplexer one 22 forms a transformation unit. The signal lines 204 of the information evaluation unit of the video signals 1 are connected to the signal lines 200 and the signal line 201 to the compression unit of the pixels 4 and sum histogram generator 3 are connected to the loadable memory 23.

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Fig. 3 shows the structure of the Histogramingenerators 3, ^m i "^ a 4 χ χ 24 256 words of memory 31, a multiplexer 32, a counter circuit 33 and a Steuerzählschaltung 34. The interconnection of the thus shown in FIG. 3 dargestell- th form enables the generation of 4 histograms each with 256 × 24 bit words per histogram The word memory 31 is connected to the transformation units 2 via the signal line 201. The signal line × 202 connects the word memory 31 to the compression unit of the pixels 4. The control line 102 connects the control counting circuit 34 and the word memory 31 having the iniormation evaluation unit of the video signals 1 and the control line 104 connect the control counting circuit 34 to the compression unit of the pixels 4.

From Fig. / 4 is the structure of the information evaluation unit of the video signals 1, which is equipped with a microprocessor 11 and an electronic control unit 12. to see. 1 consists of an address driver 13 with the control lines 101 to the transformation unit 2 of FIG Fig. 1. and the Steuerl ei.tung to the compression unit of the pixels 4. from a first register 15 with two further control lines 101 to the transformation unit 2. of Fig. 1. from a second register 16 with the control lines 103 to Ecmpressionseinheit the pixels 4. from a 'read data receiver 17 with an input for the signal line 203 of the! Compress! on unit of the pixels 4 and from a write data driver 18 with the signal line 204 to Trans formations unit 2, according to Fig. 1. In this case, the address driver 13 and the decoder and driver 14 via address bus-AB. the decoder and driver 14 via control bus SB and the other units of the control electronics 12 via data bus DB lines connected to the microprocessor 11.

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Fig. 5 shows the basic structure of the compression unit of the pixels 4, with a compression circuit 41. The three compression stages 42, 43 _; 44, with the compressions 8: 1.4: 1.2: 1 and a mode controller 45, with a control circuit 46 and a readout controller 47. The control line 103 from the information evaluation unit of the video signals 1 is connected to the mode controller 45. Via the signal line 201, the compression circuit 41 with the transformation unit 2, according to Fig. 1,.

, coupled. The signal line 202 connects the histogram generator 3, according to FIG. 1. with the read-out control 47, and the signal line 205 connects to the image processing device 6. First, before the start of the digitization process, the transformation unit is loaded with the valid values for threshold adjustment by the information evaluation unit of the video signals 1. According to the control signals arriving via the control line 101 from the information evaluation unit of the video signals 1 and via the control line 100 from the digitizer 5, the video signals; used by the -Digitalisierungseinrichtung 5 via the signal lines: 200 to the transformation units 2, used as an address for non-destructive readout of the contents of the selected memory block of the respective Schwellwertgebers.Die appearing on the signal lines 201 signals can for the first determination of a histogram, via the signal line 201 be forwarded to the corresponding histogram generator. In Hi stogramnigenerator 3 v / earth first by the over the control line 102 from the information evaluation unit of the video signals 1 incoming control signals generated by the control counting circuit 34, the necessary for Histogranrmgeneration internal control signals and the corresponding times of the counting 33 · the multiplexer 32 and the word memory 31st offered. Control signals, which are then conducted via the control line 104 to the mode controller 45, are also generated in the control counting circuit. By the readout control

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47 in the compression unit of the pixels 4, it is possible by the corresponding control signals generated by the information evaluation unit of the video signals 1 via the control line 103 to store the created histograms via the signal line 202 and then via the signal line 203 into the read data receiver 17 of the information evaluation unit of the video signals 1. Now an evaluation of the histograms can be carried out in the information recording unit of the video signals 1 and a threshold value is established via the control lines 101 by rewriting the evaluation table via the signal lines 204 into the transformation units 2. Is the correct threshold value setting can be hit by the one in the information evaluation unit

the video signals 1 via the control line 103 and on the other hand in the control counting circuit 34 via the control line 104 generated control signals by means of the mode control 45, a certain compression either 8.: 1. 4: 1 or 2: 1 are set, which then in the corresponding compression stage. 42nd 43, 44 is performed. In the control circuit 46, the compressed pixels are then compiled again to a latitude required by the image processing device 6 and offered to the image processing device 6 via the signal lines 205.

It is also possible to create the histograms

by means of the Auslesesteuarung 47 via the Signal.leitung request and then transfer via the signal line 205 to BiIdverarbeitungs'einrichtung 6

 It is not necessary; to form the histogram from the entire data offer of a template or scene. It is advantageous to select a significant section in order to determine the threshold for the entire template from the knowledge of the histogram created.

Claims (2)

229112 3 Erfindungsansprucfa: 1. An arrangement for the adaptive coding of video signals of arbitrary originals or scenes with a digitizer and a subsequent image processor, wherein in the signal flow of the complete processing, a transformation unit, a histogram generator and an Infofmationsbewertungseinheit the video signals are present, characterized in that the onaeinheit, the Histögrammgeneratcr and the Transformati the information evaluation unit of the video signals between the digitizing device and the image processing device are arranged such that there is a compression unit of the pixels consisting of a selection holder, a mode controller and at least two compression stages, wherein the selection switch on the input side with the transformation unit, outgoing each with a compression stage and has a connection via its control 1 input with the mode control that a connection between d it information evaluation unit of the video signals and the mode control for transmitting a control command in dependence on the number of accumulation modes is present, and that also the compression stages downstream control electronics for filling the data word to be processed with the grain-primed pixels. 2. Arrangement for the adaptive coding of video signals according to item 1, characterized in that a read-out control for selectively reading out the content of the transformation unit and the histogram generator is present. For this .. p 3735