DE2920303C2 - Device for transmitting video signals - Google Patents

Description

to identify ras and to carry out a quality check of the image signals. Since this exam is not dated Image content, but only depends on the unique coding, is not a big technical one Effort required.

The measures listed in the subclaims are advantageous developments and Improvements to the facility specified in the main claim are possible.

drawing

An embodiment of the invention is shown in the drawing on the basis of several figures and in explained in more detail in the following description. It shows

F i g. 1 shows an overall representation of a transmission system for video signals in the block diagram,

2 shows a circuit diagram of a Coding device,

3 shows a circuit representation of a Decoder and

4 shows a signal diagram to explain the Mode of operation of the exemplary embodiment.

Description of the embodiment
(RF transmission)

The image sources shown in FIG. The embodiment shown in FIG. 1 has two television cameras 10, 11 shown that their video signals via two encoders 12, 13 and modulators 14, 15 one common transmission line 16 feed. The part 17 of the shown with a broken line Transmission line 16 indicates the possibility of further connections for television cameras. The number of image sources that can be used depend on the number of television channels available. Used for example, the TV channels (according to the CCIR standard) of areas 1 and 111 as well as the two Areas of special channels, there are 31 channels available, with a number of 31 image sources Allow frequency division multiplexer transmission. Of these channels are in the Federal Republic of Germany however six not approved by the Deutsche Bundespost. Beyond that, however, is more time-multiplexed Multiple polling of the individual transmission channels is possible, especially in In this case, a possibility of identification on the recipient's side is desirable. Instead of television cameras Videc recorders can of course also be used as image sources or other image sources.

The video signals encoded and modulated in a known manner on the RF carriers are transmitted via the Line 16 and a number of line amplifiers depending on the length of this line 16 18, 19 are transmitted to the monitoring center 20. In principle, this transmission can also take place wirelessly.

In the monitoring center 20, the received video signals are two image receivers shown 21, 22 are fed, where they are demodulated in two demodulators 23, 24 and fed to two monitors 25, 26 will. The outputs of the demodulators 23, 24 are also provided with two decoding devices 27, 28 tied together. From the demodulated video signals, the digital, coded signal sequence separated. It can be taken from parallel outlets as a digital bit pattern, whose number corresponds to the number of bits. This bit pattern can either be used to control an alphanumeric Display for the purpose of identifying what has just been made visible. Serve video signal or with a fen can be compared with the given bit pattern. Will

ϊ no match is found, either there is a transmission error, or a video image that does not belong to it has been sent to the image receiver has been, in its decoder the mismatch of the decoded signals was determined

i'i became. Such an error is then particularly caused by a warning light 29, 30 is displayed. Additionally or alternatively, switching devices, alphanumeric Displays or other means of identification are switched on. Through a switchgear The faulty or incorrectly displayed image can then be interrupted, for example.

In the monitoring center 20, the possibility of further image receivers is also interrupted by an Line 31 displayed.

In Fig. 1 , connecting lines labeled A \ and Az are also indicated as an alternative to the method described above. The video signals are transmitted directly in the video plane, possibly with the involvement of video amplifiers.

At ctv in Fig. The circuit implementation of a coding device 12 shown in FIG. 2 (the coding device 13 is of course constructed in the same way) is a summing amplifier 40 between the image source 10 and the modulator 14

jo switched. Part of the video signal coming from the image source 10 is taken via a high-resistance resistor 41 and fed via a video preamplifier 42 to the series connection of two amplitude filter elements 43, 44 Clock input C of a counter 46 is connected. The output of the filter element 44, which serves to filter out the vertical sync pulses, is connected to the reset element.

• connected to gang R of this counter 46. The five outputs of the counter 46 shown are fed to a multiplexer 47 and also to a decoder 48 embodied, for example, as a diode matrix. Such a diode matrix 48 has logic links and generates an output signal when certain input conditions are given. In the present case, an output signal should be generated as long as the counter has a count of less than 22, corresponding to the free number of lines in the blanking interval. The output of this diode matrix 48 is connected to the second input of the AND gate 45. The multiplexer 47 has a certain number (in the present case 22) of ρ-ogi adjustable inputs 49, to which a certain bit pattern is applied, in particular by hard wiring a delay element 50 is output, the output of which is connected to a further input of the summing amplifier 40 via a timing element 51 embodied, for example, as a monostable multivibrator

The in F i g. 3 illustrated circuit arrangement of a decoder 27 (the decoder 28 is identical) w-; is an assembly 41 to 46 as well as 48, which the identically designated assembly according to F i g. 2 corresponds in structure and mode of operation. Included is the resistor 41 to the connection line

connected between the demodulator 23 and the monitor 25. Instead of the multiplexer 47, there is now a demultiplexer 60. Each output of the demultiplexer 60 (for the exemplary embodiment it should be 22) is connected to an input of an AND gate to 82. The second input of these AND gates 61 to 82 is connected to the output of the video preamplifier 42. The outputs of AND gates 61 to 82 are connected to a corresponding number of memory cells of a memory device 83, the reset input R of which is connected to the reset input of counter 46. The memory cells of the memory device 83 are connected to first inputs of a digital comparator 84, the second inputs of which are connected to a corresponding number of memory cells of a permanently programmed memory device 85. The bit sequence stored in the memory device 85 corresponds to the bit sequence of the coding corresponding to the assigned bus receiver. This bit sequence can of course also be generated by hard wiring. Likewise, the digital comparator 84 can also be replaced by an arrangement of comparison gates. The output of the comparator 84 is connected to the evaluation device 29 via a NOR gate 86. The second input of the NOR gate is connected to the output of the diode matrix 48. The mode of operation of the embodiment shown in FIGS. 1 to 3 will be explained below with reference to the signal diagram shown in FIG.

a) coding

The standardized, simplified video signal U 10 of the image source 10 contains between two fields in a blanking interval 22 Bildinhaksircic lines or signals 222 digital telegram of a maximum of 22 bits can be transmitted in the picture blanking interval. This means that the identification of a maximum of 2 ²² image sources would be theoretically possible.

A portion of this video signal is removed via the high-resistance resistor 41 and the horizontal and vertical synchronizing pulses U 43 and U 44 contained in the video signal are filtered out in a manner known from television technology through the two amplitude filters 43, 44. The counter 46 is reset by the vertical sync pulse U 44, so that the AND gate 45 for the signals U 43 (line sync pulses) is now enabled via the diode matrix 48. In the cycle of signals i / 43 there is now an up-counting process Z46 in counter 46. Of these processes, only the first three are shown, and the double line ZR should contain a time lapse for the other signals. After the 22nd signal i / 43, the AND gate 45 is blocked again via the diode matrix 48, so that only the 22 lines of the image blanking interval are used for coding. The programmed inputs of the multiplexer 47 are now selected one after the other through the outputs of the counter 46. The signal present at these inputs 49 appears at the output of this multiplexer 47 as signal t / 47. In the illustrated In this case, there is an I signal at the first input 49], a 0 signal at the second input 492 and an I signal again at the third input 49}. The rest of the signal sequence is no longer shown. This signal sequence t / 47 resulting from this at the output of the multiplexer 47 is delayed in the delay element 50 by a time t \ and fed to the timing element 51 on the output side as a signal sequence U 50

ίο a change in the signal length, so that now a signal sequence i / 51 is fed to the summing amplifier 40 and linked with the signal sequence L'10 to form the signal sequence U 10 / i / 23. This signal sequence now represents the coded video signal, that modulates the HF image carrier and the Transmission line 16 is supplied.

The two elements 50, 51 are used for pulse shaping and change the signal U 47 in such a way that it lies between two synchronization pulses comes (generating a front and rear

so-called black shoulder), b) decoding

Analogously to the coding, a small portion of the video signal U 23 at the receiving end is converted via a

: 5 high resistance 41 decoupled. As in a coding device according to FIG. 2 now also takes place in the decoding device according to FIG. 3 a corresponding control of a counter 46. The outputs of this counter 46 now control one Demultiplexer 60, the outputs of which have a 1 signal one after the other in the counting cycle (U6Q \, L / 60 _2. I / 603, ..). As a result, the AND gates 61 to 82 are opened one after the other, which means that the signal sequence is accompanied by a 1 signal

j> t / 23 at the output of the amplifier 42 this into the corresponding memory cell of the memory device 83 is stored. This means that during the η-th line the n-th gate is opened and thus the one contained in the η-th line

• to identification pulse at the output of the / menu gate for a Line duration is available (series-parallel conversion) and in the memory device 83 is saved. This makes it possible to switch off the identification pulses contained in the blanking interval to separate out the video mix. The bit sequence thus stored in the memory device 83 is compared with the bit sequence in the memory device 85 containing the nominal coding. If there is an inequality, the output will be

so the comparator 84 generates a 0 signal through which The evaluation device 29 is controlled via the NOR gate 86. During the storage process in the storage device 83, that is, during an output signal at the diode matrix 48, the NOR gate 86 remains blocked

A coding of externally generated television programs that are not offered in video but in H F position (for example, public television programs that are received by an antenna in a head-end station are), according to the method described, the detour via demodulation - coding - remodulation (which simultaneously converts to a other output channel) is also possible Huh

The blank lines in accordance with the television standard in the blanking interval are referred to above as lines free of image content Understood. However, the invention is not thereon

limited, but the identification signals can be keyed into any lines of the television picture, (line advantageous implementation of the method described is given in today's technology by microcomputers.

For this purpose 4 sheets of drawings

Claims (8)

Claims: Corresponds to signals free of image content. 1. Apparatus for transmitting video signals originating from a plurality of picture sources and the lines between two fields or images in the image content-free lines represent the respective image source contain identifying coding, characterized in that each image source (10, 11) a coding device (12,13) for generating a digital coding that with the image sources Image receiver (21, 22) each having a decoding device (27, 28) for decoding the digital Coding are connected and that each decoding device has an evaluation device (29, 30) is connected downstream, which displays the digital coding alphanumerically and / or after a Comparison with a predetermined bit pattern triggers a warning signal if they do not match 2. Device according to claim 1, characterized in that the coding devices (12, 13) each between a Biidqueiie (iö, Ii) and a Modulator (14,15) are connected. 3. Device according to claim 1 or 2, characterized in that the coding devices (12, 13) have a counting device (46) for counting the image content-free signals that go through in the counting cycle a multiplexer (47) a coded bit pattern is generated and that this bit pattern of the Signal sequence from the image source (10 or 11), in particular through a summing amplifier (40), is superimposed 4. Device according to a di "· claims 1 to 3, characterized in that the docoding devices (27, 28) are each connected to a V-r connection point are connected between a monitor (25, 26) and a demodulator (23,24). 5. Device according to one of the preceding claims, characterized in that the decoding devices (27, 28) have a counting device (46) for counting the image-free signals, that the encoded bit pattern of the received signal sequence in a memory device in the counting cycle (83) is stored that the stored bit pattern with a predetermined bit pattern is compared and that the evaluation device (29) indicates a deviation and / or a Switching device is operated. 6. Device according to claim 5, characterized in that that for storing the coded bit pattern of the received signal sequence in the counting cycle successively by a demultiplexer (60) preliminary stages (61 to 82) are opened, the memory cells the memory device (83) are connected upstream and supplied with the received signal sequence is. 7. Device according to one of claims 3 to 6, characterized in that the counting device (46) two amplitude filter circuits (43, 44) for filtering out the horizontal and vertical sync pulses the video signals are connected upstream, that the vertical sync pulses as reset pulses and the horizontal sync pulses are supplied as counting pulses to the counting device (46) and that the Counter input via a decoder (48) only during a predeterminable number of signals is released. 8. Device according to claim 7, characterized in that the predeterminable number of the number of The invention relates to a device for transmitting video signals according to the preamble of claim 1 specified genre. To monitor road or rail traffic with the help of television cameras are already in implemented systems at the locations to be monitored, these are road traffic junctions or train stations, TV cameras installed, their video signals frequency-unJ / or directly and time-multiplexed or via modulators be given time division multiplex on a cable television system. Be in the surveillance center the incoming television signals either directly on monitors or on television receivers or via Demodulators given on television monitors, on their screens then an observation of the too monitoring locations is possible. This way, a small number of people can grow into a large number Observe monitoring traffic points. When transmitting a large number of such television programs, especially over a cable television system, it is desirable to have an identification facility of the individual television cameras at the image receiving points. Identify known procedures the television cameras each by a subcarrier frequency. This means »however a considerable expenditure in terms of components and costs. DE-AS 24 11 634 also discloses a method for determining a movement or a change known in a given area, according to which several television cameras image signals to a Supply monitoring center, in which a storage device one after the other, one image each Caching TV cameras temporarily TV camera characteristic identification signal. When the memory is subsequently read out, it triggers Identification signal off the actuation of a switch assigned to this signal. The switch will then the image signal currently transmitted by the relevant television camera of an image from a comparison device supplied, in which the image signals of this image with image signals stored in the memory of the previously provided by the same television camera can be compared. The pictures are not correct match, an alarm signal is triggered. Object of the invention The invention is based on the object to be transmitted with less effort than before To identify image signals from a variety of television cameras and the identification of each received To either make image signals automatically visible or to automatically subject them to a test for reception quality. Advantages of the invention The device according to the invention with the characteristic Features of claim 1 has the advantage that through the introduction of digital Codings (identifiers) and by appropriate decoding devices on the individual image receivers there is a possibility that is characterized by a low level of effort. Tv camc