DE1289094C2 - METHODS FOR ELECTRONIC SIGNAL CORRECTION IN ELECTRONIC SCANNING METHODS WITH LINE JUMPING, IN PARTICULAR FOR TWO-DIMENSIONAL APERTURE CORRECTION AND TO AVOID TRACING IN IMAGE RECORDERS - Google Patents

Description

Lines with their signals can also be taken into account for the elimination of crosstalk. All

The invention relates to a method for effective partial signals can be subjected to a phase-linear pre-equalization sharpness improvement in the reproduced image before they are electrically combined with the scanning and reproduction of images with television. The resulting technical methods, as well as the effective Vermin signal, already with a suitable comparison, show the modification or elimination of the after-effects, which are 4 ° two-dimensionally corrected and thus desired, which are present in some image pick-up tubes and also image signal. by the sample signal examples have become known which this signal processing is suitably influenced. Today's image recording with the required accuracy with regard to tubes has a "scanning aperture" whose expansion, delay time and freedom from distortion as a result are greater than the effective dimensions of an image circuit according to the above concept, point and in particular that achieved by the scanning standard Die According to the current state of technology, the method is the given line spacing. For this reason nik can be implemented, but all the others here would considerably exceed the adjustment due to the incorrect crosstalk of the methods mentioned below with regard to effort, also for bar information from the neighboring lines, and the scanned and displayed image would not be as good in practice therefore often the simplest turn out to be sharp, as the scanning standard could approximate only two delay lines. To eliminate this, avoids delaying the signal for one line of blurring in the reproduced images by the sampling duration t _z. With them, only as a result of the two-dimensional interaction of the borrowed the crosstalk signal from the electrically adjacent picture elements with one another, various types of connection and thus optically the next but one lines have become known. be sighted. Occasionally four of the group of these methods are used for this purpose-like delay lines are used, the corresponding frequency-dependent amplification of the video- chend four electrically adjacent lines beückfrequenten image signal in the sense that, according to high visibility, the electro-optical crosstalk in the frequencies with usually a linear phase response 60 lines of the other field but still being increased without gain. Realized were taken into account. The signal delay by the like method, for example with electronic scanning duration i ₂ for a line, is effected by means of electro-differentiating circuits and also echo circuits of acoustic delay elements, in which the (e.g. cosine equalizer, which has a precursor and post-signal as an ultrasonic wave due to the Propagation echo with a maximum echo spacing of 65 tüngs speed in the medium used 100 ns), with the help of which the video-frequency and the predetermined propagation length defined image signal is delayed correction signals derived from it. Since in particular the spatially unoccupied. The methods of this group have indirectly adjacent lines in the correction and

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are taken into account, the compensation remains uncorrected video signal combined, with the degree perfect and approximates a scanning system that of the correction by changing the amplitude of the half the number of lines and double the frame rate. uncorrected video signal and / or the correction further it is disadvantageous that because of the fixed pre-video signal before the mix is made, given delay time deviations of the clock 5 As an electrostatic surface storage is in itself transmitter frequency from the setpoint frequency in its full known manner to any common television value Appropriate for the misregistration of vertically assigned acquisition tubes, those with slow scanning pixels enter. After all, it must be a disadvantage of the electron works, if they are evaluated differently than in the that the video signal to be equalized is operated in a conventional manner. Passed by one This group of processes does not include the main 10 known use of a television pickup tube signal can remain when the all-round crosstalk as a storage tube should be in contrast to the should be taken into account. Rather, the main invention required generation of the unsharp signal only ever serve the delayed video signal, information a sharply written image between them be saved with all errors of the applied procedure. How the to signal delay is afflicted, while the 15 television recording tube as a memory is an example direct signal only as one of the correction signals on the basis of the well-known vidicon, which is special goes, for which, in turn, minor adulteration is as inexpensive and therefore preferred use Consequence of the delay could be tolerated. finds, explained.

A fourth method is characterized in that the charge image is written on the storage layer with the image signal to be corrected as a two-dimensional image on the luminescent screen of the electron beam deflected in a raster by the cathode of the beam generator tube, which in turn is optically built up on the - systems and possibly the Wehnelt cylinder with a photo layer of an image pickup tube and the signal voltage to be corrected is controlled who is scanned again in this. These in between. For a certain instant of time, the image is deliberately set to be blurred, so that the relationships with the known substitute for the original image signal can be captured in a second syncronized image of the vidicon (Fig. 1). The chronologically available, the preferably information storage layer, is charged in the writing phase to the cathode potential from the vicinity of the image momentary being scanned, which thus has elements. If this is obtained two-dimensionally when this potential is scanned. Afterwards, the defocused image signal from the original signal with 30 is charged, the storage element is subtracted due to the local and suitable amplitude, so there remains a temporally constant illumination of the storage layer signal, which is desirably two-dimensional time exponentially corrected against the more positive plate / the disadvantage of this method is voltage U _p . In the reading phase, the cathode effort for image reproduction and optical potential is set to a sufficiently negative constant potential intermediate image of the signal to be corrected. A 35 tial kept, so that the main problem with renewed scanning continues to be the correct stored signal negative appears at the output as concealment of the raster of the display tube with the displacement current, the synchronously written raster in the recording negative signal voltage at the resistor R ₁₁ generated. At the same time, the tube is shown over the intermediate optical image. The stored information is deleted. After the two rasters have been covered within the dimension 40 erase, the storage element of a pixel is discharged again at every point in the image field and must be guaranteed exponentially against the plate voltage U ″ at every point in the image field. so that in the writing phase information is again

Likewise, there is another well known arrangement too can be written. The process of enrollment judging, in the case of the partially permeable spitting and reading is thus in an alternating sequence gel a defocused television camera that 45 is possible.

Video signal with the unsharp information supplies. The becomes the electron beam with the usual twofold The set television camera only picks up the streaky grid, and will store large-area parts of the image. The corresponding video image is built up during a field as well as the selection signal controls the output amplifier in such a way that the rend of the following field is read out again, so Pixels with small image details are high, each reading line is 50 between two large writing areas Image parts, on the other hand, have a low level of spreading. If the electron amplification is sufficiently unsharp Experienced. Beam in the storage tube becomes the storage signal

The invention now has the task of reading out the two from the other field and in the dimensional aperture correction without the disadvantages of memory erased. Since constantly both that too corrider The aforementioned method to enable and 55 yawing signal is written as well as the stored one at the same time the undesired memory effect to ensure the signal has to be read out are two memory eliminations, which in particular some image pick-up tubes are required whose mode of operation is peri-tube is peculiar. is switched odically with the field frequency.

According to the invention, therefore, to produce a The entire arrangement is shown in the block diagram

a video signal 60 A b b corresponding to a blurred image. 2 shown. There are two memories of the

the separated video signal or the separated written type present, each of which the

Luminance signal written in one (or more) areas - one the signal and the other

memory from which the writing and reading are read out. With each frame sync pulse,

is effected according to the same physical principle, the functionality of the two memories is interchanged

as a two-dimensional potential relief with reduced 65 and the input signal via an electron switch

two-dimensional detail resolution of this signal is always fed to the tube that sends the signal to each

cached and then writes in for correction from the Weil, while according to the elec-

Area memory read out and always the stored data directly with the beeper at the exit

Takes the signal from the tube that reads the signal. So at the exit there is the negative Image signal with increased information from the area around the scanned point is available, the can be added to the original signal with a suitable amplitude. The desired signal operation is done with it.

The method described can be simplified if you switch to electronic switching dispensed with at the input and output of the storage arrangement and only one storage tube in the described way, whose beam system is constantly controlled with the image signal to be corrected will. These relationships are shown in the block diagram A b b. 3 shown. When writing the signal with the sufficiently fuzzy scanning beam, the stored signal from the environment is released at the same time of the pixel just captured is read out. The negative read signal is now superimposed by the displacement current of the write signal. The overall signal taken from the memory can be passed through Use addition to the input signal directly for aperture correction. One can use this method if necessary, to additional transit time methods and frequency response influences of the read video signal refrain, even if lines from both fields that are further away are taken into account in the correction should be.

In prior patent 1,224,352 it was suggested using a television pickup tube as a video high-pass filter to illuminate the signal plate with such an intensity that the written potential image is just completely present when it is read out, so that at the working resistance of the signal plate an alternating video voltage containing only the small image details pending. These conditions can be met with an inherently inexpensive vidicon recording tube do not realize, on the other hand is even when using the proposed arrangement for the harmonization of X-ray images, the complete suppression of the large-area image parts undesirable. In the case of the older solution, these disadvantages must therefore have additional procedural steps be balanced again.

As an expedient variant, the original image signal can also initially become the output signal in this way of the memory that, because of the different sharpness of the two images, the resulting signal only provides information about the contours of the original image, but not about the coarse contrast contains. This difference image thus contains the outline contours of the original. It can be particularly convenient to use for aperture correction because its addition to the original signal denotes the The level of the large-scale structures does not change.

These storage methods for aperture correction are also suitable for preventing undesired storage effects in To eliminate image pick-up tubes. Such memory effects occur, for example, in the semiconductor layer of the vidicon. They express themselves in the fact that

ίο not only the video information of the last image, but also those of the previous images with decaying amplitude. they are The reason for the so-called "tracing" in moving images, which results in a blurring of the contours of the makes moving parts noticeable. This unwanted memory information can be eliminated, by temporarily storing the video information using the method described above. This memory signal is used by the current

so video signal with suitable amplitude subtracted so that the information of the penultimate and further back images is attenuated.

In summary, the advantages of the described method for two-dimensional aperture

to name correction with its variants:

1. The information of the other field necessary for the correction is taken into account.

2. The correct compensation only needs through a comfortable and quick adjustment the fuzziness of the scanning beam in the storage tube and the amplitude of the dem To be adjusted from the memory extracted signal. The effective fuzziness in the storage process can optionally by connecting several of the memory arrangements described in parallel or better by high-frequency wobbling of the blurring in a single memory array can be set practically at will.

3. The signal to be corrected remains the main signal, which in turn is only changed by correction signals will.

4. The raster written by the scanning beam is when the information is being stored and read out automatically congruent and synchronized with the grid in the image pickup tube whose aperture is to be corrected. These Properties apply regardless of the clock frequency and regardless of the specified Tolerances of the signal delay time, the runtime methods and common storage methods are essential.

For this purpose 3 sheets of drawings

Claims (1)

1 2 the disadvantage that the sharpness improvement only in Claim: scanning direction is to be achieved. Structures perpendicular to the scanning direction remain unaffected. Structuring Process for electronic signal correction strikes between these two distinguished disciplines electronic scanning methods with lines are only incomplete and partially jump, in particular to the two-dimensional incorrectly corrected. Aperture correction as well as to avoid the Another method for two-dimensional "Dragging" in image pickup tubes with remote aperture correction makes use of periodic wobseh transmissions, in which the video signal is based on the definition of the sharpness of the scanning beam in the two images Channels divided and in a canal dario acquisition tube. Synchronizes with the wobble frequency from a video signal with appropriate means, sequentially a sharp and a fuzzy image extract corresponding to a blurred image, manufactured manufactured. The appropriate combination of both image and with the uncorrected video signal of the extracts then delivers the sharpness-corrected image signal, whose channel is combined, the disadvantage of this method is that the electrical indicates that neighboring information to be subtracted in order to produce a 15 is in the image blurred image corresponding video recording tube must be generated itself, so that signals the separated video signal or, because of the non-permanent presence of the signal, the separate luminance signal in one (or more- horizontal resolution and the signal-to-noise ratio impair) Area memory in which the writing is done, even if the wobble frequency is sufficient and readout to the same physical 20 is high. Principle is effected as a two-dimensional A third group of processes for two-dimensional Potential relief with reduced two-dimensional aperture correction is characterized by the detailed resolution of this signal between the application of delay methods that are stored and then read out several times for correction from the video signal by the sampling period t _z to the area memory and directly with the sampling of a single one Allow line to be delayed, uncorrected video signal is combined, where- When they are used, the image signal from all neighboring lines required for the degree of correction by amplitude is available simultaneously, change in the uncorrected video signal and / so that the spatial crosstalk on the electrical or the correction video signal before the mix paths can be subtracted again. This is done as needed. 30 it is also necessary in the case of interlace scanning the signal delay of the previous field, by the odd numbered and especially the spatially immediately neighboring ones