DE3327718A1 - X-ray television device - Google Patents

Abstract

An X-ray television device comprising a television camera (5) for generating a video signal, a processing circuit (6) and a monitor (7) in which the processing circuit (6) contains storage means in which characteristics for the variation of the output signal as a function of the input signal are stored, which have a sawtooth-shaped characteristic and each sawtooth of which subdivides the video signal into a band so that the same output quantity is associated with particular input quantities of different bands. <IMAGE>

Description

X-ray television equipment

The invention relates to an X-ray television device with a television camera for generating a video signal, a processing circuit and a monitor.

Due to the advancement of television recording technology are in recent Time television pictures with a very high dynamic range are available. The representation of this high contrast range in an image prepares in the known X-ray television equipment Trouble.

Therefore, the window technology known from DE-AS 12 41 869 is often used used. A particularly interesting area is selected from the television picture, in which the contrast is enhanced. The video signal of the rest of the area can remain unchanged. However, the gain can also be changed here. Even it is possible to feel the area of no interest light or dark. Here however, it proves to be disadvantageous that the full dynamic range is not shown because you can either use the maximum amplitude * dews video signal on your maximum possible value (white value) or to increase the contrast differences the video signal is overdriven in the dark areas and the maximum amplitudes are limited.

The invention is based on the object of an X-ray television device to create the type mentioned, which makes it possible to TV pictures with very high contrast range.

The object is achieved according to the invention in that the processing circuit Contains storage means in which characteristic curves for the course of the output signal are stored depending on the input signal, which have a sawtooth-shaped Have course and each of which sawtooth the video signal in a range divided so that certain input variables of different areas have the same Output variable is assigned. By this arrangement, for example, up to one average amplitude value of the input video signal the output video signal spread its maximum value while the monitor image for the input video signal the same full contrast range from its mean to maximum amplitude value having.

A particularly simple structure results when the processing circuit contains a memory to which the video signal is supplied and its stored The characteristic curve is only steady in certain areas. This gives the distribution of the video signal into different areas in the simplest way by adding the ones contained in the memory Characteristic, for example, consists of two saw teeth.

A better, areal adaptation is obtained if the processing circuit has at the input a spatial frequency low-pass filter which is connected to a comparator is to which a threshold value is fed via an adjuster when on the comparator a logic circuit is connected which is designed such that the video signal a memory when the threshold value is undershot and a memory when it is exceeded further memory is supplied if the characteristics in these two memories are different Gradients and zero points are stored, and if their output signal is in a Addition level connected to the monitor. This is from consideration assumed that, as a rule, large jumps in contrast in X-ray images are usually large are. The low-pass filtering means that large areas are obtained in which the characteristic is continuous.

The selected area can be displayed if the storage means are designed such that they also have an output signal in addition to the video signal generate the area of the characteristic in which the amplitude of the video signal falls, identifies and which is fed to a further logic circuit which causes the respective area to be displayed selectively.

The invention is illustrated below with reference to in the drawing Embodiments explained in more detail. 1 shows a block diagram of a X-ray diagnostic device, FIG. 2 the processing circuit shown in FIG. 1, 3 shows an embodiment of the circuit according to the invention for adaptive window setting of FIG. 2, and FIGS. 4 to 6, characteristic curves contained in storage means.

FIG. 1 shows an X-ray diagnostic device with a high-voltage generator 1 shown, the feeds an X-ray tube 2, which emits rays, which penetrate a patient 3 and in the entrance luminescent screen of an X-ray image intensifier 4 generate a luminance image. The image of the luminescent screen of the X-ray image intensifier 4 is picked up by a television camera 5 on which a processing circuit 6 is connected. The output of the processing circuit 6 becomes a monitor 7 is shown. A central unit 8 generates the clock pulses for the TV equipment 5 to 7.

The structure of the processing circuit 6 is shown in more detail with reference to FIG explained. The output signal of the television camera 5 is sent to an analog / digital converter (A / D converter 9) supplied with an image memory 10 and a switching contact a switch 11 is connected.

The output of the is at the second switching contact of the switch 11 Image memory 10 shot. The switch 11 is connected to a circuit 12 for adaptive Window setting connected, whose output signal is a digital / analog converter (D / A converter 13) is supplied. The output of the D / A converter 13 is with the monitor 7 connected.

In the simplest case, the circuit 12 for adaptive window setting consist only of a memory in which a sawtooth-shaped characteristic is stored is.

Such a characteristic is shown in FIG.

Here, the dependency of the output signal of the circuit is about applied to the input signal. The characteristic consists of two saw teeth, each are assigned to a range of the input signal. The first saw tooth has a Characteristic part K1, which for example have an exponential increase can.

Has this part of the characteristic curve K1 the maximum possible speed amplitude value reached, the output signal jumps to the when the input amplitude is increased second part of the characteristic curve K2, which also has an exponential increase. the However, the slope of the parts of the characteristic curve K1 and K2 can also be linear or any other take the required form. This jump from part of the characteristic curve K1 to K2 means a point of discontinuity in the entire course of the characteristic curve. This characteristic becomes but achieves that the input signal is divided into two areas, each of which the full output amplitude for displaying the television images on the television monitor 7 is available. The incoming video signal due to the position of the switch 11 either directly from the television camera 5 or from the image memory 10 is read out, is fed to this circuit pixel by pixel. Through the point of discontinuity in the characteristic it can happen that when the input signal is close this point of discontinuity is located within a considered part of the object brightness jumps can occur, which, however, since changes in contrast are usually large-scale, not further disturb.

In the figure 3 is a further embodiment of the circuit 12 for adaptive window setting shown. The current or saved video signal is first fed to a spatial frequency low-pass filter 14 which has a comparator 15 is connected. An adjuster 16 provides this comparator with a selectable threshold value fed. The output signal of the comparator 15, which indicates whether the video signal has exceeded or fallen below the threshold can be temporarily stored in a memory 17 will. The output of the memory 17 is connected to a logic circuit 18, which can consist of two AND gates 19 and 20, for example.

The output signal of the memory 17 is negated for the first AND element 19 fed, while the second AND gate 20, the output signal is fed directly will. The second inputs of the AND gates 19 and 20 are connected to the input of the circuit 12 connected. The outputs of AND gates 19 and 20 are at memories 21 and 22 connected, the output signal is mixed in an adder 23, the is connected to the monitor 7 via a second switch 25. The output signal of the memory 17 is also fed to a further logic circuit 24 which is connected to the second switching contact of the switch 25.

With reference to FIGS. 5 and 6, those contained in the memories 21 and 22 Represent characteristic curves, the mode of operation of the circuit will now be explained in more detail. Due to the spatial frequency low-pass filter 14, only the low-frequency ones are obtained from the video signal Image area proportions.

The low-pass filtered signal passes through the comparator 15, so that at the output of which a signal is obtained that represents the corresponding large-area image components divides.

The output signal of the comparator 15 has an information depth per pixel by one bit. Is the threshold set by adjuster 16 exceeded, there is a logical one at the output of the comparator 15, while in the other case a logic zero is generated. This output signal can be in the Memory 17 are temporarily stored and is fed to the logic circuit 18. If the video signal is below the threshold value, i.e. the output of the comparator 15 is at logic zero, so the first AND-glled 19 are released and that second AND gate 20 blocked. Thereby the video signal is fed to the memory 21, in which the one shown in FIG Characteristic curve K1 is included. This characteristic curve K1 essentially corresponds to the part of the characteristic curve shown in FIG K1. If, on the other hand, the set threshold value is exceeded, i.e. at the input of the logic circuit 18 is a logic one, it blocks the first AND element 19 and the second AND gate 20 feeds the video signal to the memory 22. In this Memory 22 contains the characteristic curve K2 shown in FIG. 6, which essentially corresponds to the part of the characteristic curve K2 shown in FIG. In the stores 21 and 22 are the values of the pixels of the video signal according to the characteristic curves K1 and K2 converted into new pixel values. This is divided into large areas The video signal is reassembled into a video signal in the addition stage 23.

In order to identify for the observer those parts that are over or are below the threshold, the further logic circuit 24 is provided, which is connected to the memory 17. By operating the switch 25 can they are connected to the monitor.

Thus, the signal contained in the memory 17 can be converted directly into a video signal being transformed. This allows, for example, the areas on the monitor 7 which are below the threshold as black areas and which are above the threshold, represent as white areas.

In the logic circuit 24, however, a further comparator can also be used be included, which compares the pixels with each other and only in the event of inequality the pixels generates an output signal. This is the course of the edge of the Area recognized and displayed as a white border in monitor 7. The logical one Circuit 24 can, however, also use AND gates 19 and 20 or memories 21 and 22 be connected to the deliver a signal that identifies in which part of the characteristic line the pixel values of the video signal are located.

To further improve the visibility of differences in contrast The first embodiment can be obtained with that shown in FIG Characteristic curve and the second embodiment of Figure 3 with the in Figures 5 and 6 combine characteristics shown by adding another Memory with the characteristic shown in Figure 4 is connected in parallel and its output signal in addition stage 23 with those of the other two Memory 21 and 22 is mixed.

8 claims 6 figures

Claims (8)

Claims X-ray television device with a television camera (5) for generating a video signal, a processing circuit (6) and a Monitor (7), d a -d u r c h e k e n n n e i c h n e t that the processing circuit (6) Storage means (21, 22) contain characteristic curves (K1, K2) for the course of the output signal are stored depending on the input signal, the one Have sawtooth-shaped progression and each of which sawtooth the video signal divided into a range, so that certain input variables of different ranges the same output variable is assigned. 2. X-ray television device according to claim 1, d a -d u r c h g e k It is noted that the processing circuit (6) contains a memory, to which the video signal is fed and its stored characteristic (Fig. 4) only is steady in some areas. 3. X-ray television device according to claim 1, d a -d u r c h g e k It is noted that the processing circuit (6) has a spatial frequency low-pass filter at the input (14), which is connected to a comparator (15), which has an adjuster (16) a threshold value is supplied that a logical value is applied to the comparator (ins) Circuit (18) is connected which is designed such that the video signal a memory (21) when the threshold value is undershot and when it is exceeded a further memory (22) is supplied that in these two memories (21, 22) Characteristic curves of different courses and zero points are stored, and that whose output signals are mixed in an addition stage (23), which is connected to the Monitor (7) is connected. 4. X-ray television device according to one of claims 1 to 3, d a d u r c h g e k e n n n z e i c h n e t that the storage means (21, 22) are designed in such a way are that in addition to the video signal they also generate an output signal that the range of the characteristic curves (K1, K2) in which the amplitude of the video signal falls, and which is fed to a further logic circuit (24) which causes the respective area to be displayed selectively. 5. X-ray television device according to claim 4, d a -d u r c h g e k It is indicated that the one belonging to the first area of the characteristic curve (K1) Area on the monitor (7) is blanked. 6. X-ray television device according to claim 4 or 5, d a d u r c h it is indicated that the to the second area of the characteristic curve (K2) corresponding area on the monitor (7) is lighted. 7. X-ray television device according to claim 4, d a -d u r c h g e k It is indicated that the further logic circuit (24) is designed in such a way is that those pixels in the monitor (7) are scanned which are the limit mark between the different areas of the assigned surfaces. 8. X-ray television device according to one of claims 4 to 7, d a d u r c h e k e n n n z e i c h -n e t that the comparator (15) with the other logic circuit (24) is connected.