DE2920303A1 - Multiple channel TV remote monitoring system - uses coder and modulator for each camera and decoder and demodulator for each screen - Google Patents

Abstract

The method of monitoring remote positions using television cameras for traffic control etc., uses a coding device for each camera each followed by a modulator for connections to a common transmission line. At the receiving point, after passing through intermediate amplifiers, the signals pass through a demodulator for each monitoring screen. A decoding device for each demodulator can give a digital coded signal from the demodulated video signal. The coding device has a summing amplifier between the input and output, and the input is also connected to a preamplifier and two amplitude filters. These are interconnected with an AND-gate and counter for counting the image free hold signals and a decoder and multiplexer which generate a coded bit pattern for feeding back to the summing amplifier.

Description

Device for the transmission of video signals

PRIOR ART The invention is based on a device for Transmission of video signals according to the preamble of the main claim. For monitoring of road or rail traffic with the help of television cameras are already in implemented systems at the points to be monitored (road traffic junctions, Stations) TV cameras are installed whose video signals are direct and time-division multiplexed or frequency and / or time multiplex via modulators to a cable television system are given.

The incoming television signals are recorded in the monitoring center either directly on monitors or on television receivers or via demodulators given on television monitors, on their screens then an observation of the points to be monitored is possible. In this way, a small number of People observe a large number of traffic points to be monitored. When transferring a large number of such television programs, in particular via a cable television system, is It is often desirable to be able to identify the individual programs to have at the image receiving centers. Especially when monitoring the road or Rail traffic with the help of television cameras increases this demand operational safety. Known methods work using a subcarrier frequency, to make such program identification possible. However, this means one considerable expenditure on components and costs.

Advantages of the invention The device according to the invention with the characterizing Features of the main claim has the advantage that by modulation a specific digital identifier on the main carrier frequency this identifier the individual receiving points via a decoder (possibly behind a demodulator) can be taken and is available in digital form for further evaluation stands. This method is characterized by low effort and is suitable also for retrofitting already installed transmission systems.

The measures listed in the subclaims are advantageous Further training and improvements of the facility specified in the main claim possible.

Drawing An embodiment of the invention is shown in the drawing and explained in more detail in the following description. It shows Fig. 1 shows an overall representation of a transmission system for video signals in a block diagram, Fig. 2 shows a circuit diagram of a coding device, FIG. 3 shows a circuit diagram Representation of a decoding device and FIG. 4 a signal diagram for explanation the mode of operation of the exemplary embodiment.

Description of the exemplary embodiment (RF transmission) As image sources are in the embodiment shown in Fig. 1, two television cameras 10, 11 shows its video signals via two encoders 12, 13 and modulators 14, 15 feed to a common transmission line 16. The one with an interrupted one Line shown part 17 of the transmission line 16 indicates the possibility of further Connections from television cameras. The number of usable image sources depends on the number of TV channels available. If you use, for example the TV channels (according to the CCIR standard) of areas I and III as well as the two areas of the special channels, 31 channels are available, which have a number of 31 image sources allow for frequency multiplex transmission. Of these channels are in the Federal Republic Germany, however, six not approved by the Deutsche Bundespost. About that In addition, however, with time-division multiplex transmission there is multiple use of the individual Transmission channels possible, especially in this case one on the receiver side Identification possibility is desirable. Instead of television cameras as image sources Of course, you can also use a video recorder or other image sources.

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

In the monitoring center 20, the received video signals two image receivers shown 21 22 fed, where they are in two demodulators 23, 24 are demodulated and two monitors 25, 26 are supplied. The outputs of the Demodulators 23, 24 are also connected to two decoding devices 27, 28. The demodulated video signals the digital, coded signal sequence is separated. It can be used as a digital bit pattern at parallel outputs, the number of which corresponds to the number of bits. This Bit patterns can either be used to control an alphanumeric display for identification purposes of the video signal that has just been made visible or with a fixed predetermined one Bit patterns are compared.

If no match is found, there must either be a transmission error are present, or a video image that does not belong to it is fed to the image receiver been, in its decoder the mismatch of the decoded Signals was detected. Such an error is then in particular by a Warning light 29, 30 displayed.

Additionally or alternatively, switching devices, alphanumeric Displays or other means of identification are switched on. By a switching device can then, for example, interrupt the faulty or incorrectly displayed image will.

In the monitoring center 20 there is the possibility of further image receivers also indicated by a broken line 31.

In Fig. 1, designated by A1 and A2 connecting lines is a Indicated as an alternative to the method described above. Here will be the video signals in the video level directly, if necessary with the involvement of Video amplifiers.

In the circuit embodiment of a coding device shown in FIG 12 (the coding device 13 is of course constructed in the same way) is a summing amplifier 40 connected between the image source 10 and the modulator 14. Part of the the video signal originating from the image source 10 is passed through a high-value resistor 41 taken and via a video preamplifier 42 of the series connection of two amplitude filter elements 43, 44 supplied. The output of the filter used to screen out the horizontal sync pulses The filter element 43 is connected to the clock input C of a counter 46 via an AND gate 45 tied together. The output of the filtering out the vertical sync pulses The filter element 44 is connected to the reset input R of this counter 46. The five The outputs of the counter 46 shown are once a multiplexer 47 and further a decoding device 48 embodied, for example, as a diode matrix. Such a diode matrix 48 has logical links and generates an output signal, if certain entry conditions are given. In the present case, an output signal can be generated as long as the counter has a count of less than 22 according 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 connected. The multiplexer 47 has a certain number (in the present case Case 22) of programmable inputs 49, to which in particular by fixed A specific bit pattern is applied to the wiring. The ones at the entrances Signals are sequential depending on the Counting sequence of the counter 46 on the output side delivered to a delay element 50, the output of which via a for example, as a monostable multivibrator designed timing element 51 to a Another input of the summing amplifier 40 is connected.

The circuit arrangement of a decoding device shown in FIG. 3 27 (the decoder 28 has the same structure) has an assembly 41 to 46 and 48, which of the identically designated assembly according to FIG. 2 in structure and Mode of action corresponds. The resistor 41 is connected to the connecting line connected between the demodulator 23 and the monitor 25. Instead of the multiplexer 47 is now a demultiplexer 60. Each output of the demultiplexer 60 (for the exemplary embodiment should be 22) is each with an input of an AND gate 61 to 82 connected.

The second input of these AND gates 61 to 82 is connected to the Output of the video preamplifier 42 connected. The outputs of the AND gates 61 to 82 are with a corresponding number of memory cells of a memory device 83, the reset input R of which is connected to the reset input of the counter 46 is. The memory cells of the memory device 83 are one with first inputs digital comparator 84 connected, the second inputs with a corresponding Number of memory cells of a permanently programmed memory device 85 connected are. The bit sequence stored in the memory device 85 corresponds to the bit sequence the coding corresponding to the assigned image receiver.

This bit sequence can of course also be generated by hard wiring will. The digital comparator 84 can also be provided by an arrangement of comparison gates be replaced. The output of the comparator 84 is via a NOR gate 86 to the Evaluation device 29 connected. The second input of NOR gate 86 is connected to the output of the diode matrix 48.

The mode of operation of the embodiment shown in FIGS. 1 to 3 is to be explained below with reference to the signal diagram shown in FIG.

a) Coding The standardized, simplified video signal U10 of the image source 10 contains between every two fields in a blanking interval 22 lines or signals Z22 without image content. Each of these empty lines is assigned digital information in the coding device 12 or 13, so that in this way a digital telegram of a maximum of 22 bits in the picture blanking interval can be transferred. This means that theoretically the ID of a maximum of 222 Image sources would be possible.

A part of this video signal is transmitted via the high-resistance resistor 41 removed and through the two amplitude filters 43, 44 contained in the video signal Horizontal and vertical sync pulses U43 or U44 in one from television technology sifted out known way. The counter is set by the vertical sync pulse U44 46 reset so that now the AND gate 45 for the Signals U43 (line sync pulses) is enabled. Takes place in the cycle of the signals U43 now an up counting process Z46 in the counter 46. Of these processes are in each case only the first three shown, and the double line ZR is intended to be a time lapse for contain the remaining signals. After the 22nd signal U43, AND gate 45 is over the diode matrix 48 blocked again, so that only the 22 lines of the Bildaustastlücke can be used for coding. The outputs of the counter 46 are now the programmed inputs of the multiplexer 47 are selected one after the other. That each The signal present at these inputs 49 appears at the exit of this Multiplexer 47 as signal U47. In the case shown is at the first input 49, a 1 signal, a 0 signal at the second input 492 and again at the third input 493 a 1 signal. The rest of the signal sequence is no longer shown. This thereby The signal sequence U47 produced at the output of the multiplexer 47 is in the delay element 50 delayed by a time t1 and on the output side as a signal sequence U50 to the timer 51 supplied.

There is a change depending on the set hold time the signal length, so that a signal sequence U51 is now fed to the summing amplifier 40 and is linked with the signal sequence U10 to form the signal sequence U40 / U23.

This signal sequence now represents the coded video signal that the HF image carrier is modulated and fed to the transmission line 16.

The two members 50, 51 are used for pulse shaping and change the signal U47 in such a way that it comes to lie between two sync pulses (Creation of a front and rear so-called black shoulder).

b) Decoding The video signal U23 at the receiving end becomes analog A small part is coupled out via a high-resistance resistor 41 for coding. As in the case of a coding device according to FIG. 2, the decoding device now also takes place according to FIG. 3 a corresponding control of a counter 46. The outputs of this Counters 46 now control a demultiplexer 60, the outputs of which one after the other have a 1-signal in the counting cycle (U60 ,, U602, U603, ...). This will be one after the other the AND gates 61 to 82 open, which means that when a 1 signal is present at the same time the signal sequence U23 on Output of the amplifier 42 this into the corresponding memory cell of the memory device 83 is stored. this means that the nth gate is opened during the nth row and thus the Identification pulse contained in the n-th line at the output of the n-th gate for a line duration is available (series-parallel conversion) and in the storage device 83 is saved. It is thereby possible to use the ones contained in the blanking interval Separate identification pulses from the video mix.

The bit sequence thus stored in the memory device 83 becomes compared with the bit sequence in the memory device 85 containing the nominal coding. If there is an inequality, an 0 signal is generated at the output of the comparator 84 generated by which the evaluation device 29 is controlled via the NOR gate 86 will. During the storage process in the storage device 83, that is, during of an output signal at the diode matrix 48, the NOR gate 86 remains blocked.

Coding of third-party television programs that are not in video, but are offered in the HF position (e.g. public television programs, which are received in a head-end station by an antenna), is according to the described Procedure via demodulation - coding - remodulation (whereby simultaneously conversion to another output channel can also be carried out).

Lines according to television standards are referred to above as lines free of image content Understood empty lines in the blanking interval. However, the invention is not thereon limited, but the identification signals can be in any lines of the television picture be keyed in.

An advantageous implementation of the method described is in given today's technology by microcomputers.

Summary It will be a device for the transmission of video signals from a variety of image sources (television cameras) to image receivers (monitors) proposed, the transmission taking place both in the video and in the HF range can. A program identification and thus the possibility of increasing operational safety is given by the fact that each image source has a coding device for digital coding the image content-free lines or signals between two video images or video fields having. Decoding devices are assigned to the image receivers, which digital Separate the coding again and use a specific coding that has been permanently entered to compare. If there is an inequality, an evaluation device, in particular a warning light or switching device, switched on. This makes it possible Detect incorrectly assigned television programs or transmission errors.

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Claims (8)

Claims device for the transmission of video signals from a Large number of image sources for any assigned image receivers, characterized in that that for the detection of transmission errors and / or for the identification of each associated image source (10, 11) this has a coding device (12, 13) for digital coding of the lines between two images or without the content of the image Signals assigned to fields and that the image receiver (21, 22) has a decoder (27, 28) for this digital coding is assigned to an evaluation device (29, 30) is connected downstream. 2. Device according to claim 1, characterized in that the coding devices (12, 13) each between an image source (10, 11) and a modulator (14, 15) are switched. 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 signal that a coded in the counting cycle by a multiplexer (47) Bit pattern is generated and that this bit pattern of the signal sequence from the image source (10 or 11), in particular by a summing amplifier (40), is superimposed. 4. Device according to one of claims 1 to 3, characterized in that that the decoding devices (27, 28) each to a point of connection between a monitor (25, 26) and a demodulator (23, 24) are connected. 5. Device according to one of the preceding claims, characterized in that that the decoding devices (27, 28) have a counting device (46) for counting the image content-free signals that counting clock is the coded bit pattern of the received Signal sequence is stored in a memory device (83) that the stored Bit pattern is compared with a predetermined bit pattern and that by the evaluation device (29) a deviation is displayed and / or a switching device is actuated. 6. Device according to claim 5, characterized in that for storage of the coded bit pattern of the received signal sequence one after the other in the counting cycle a demultiplexer (60) preliminary stages (61 to 82) are opened, the memory cells the memory device (83) are connected upstream and which the received signal sequence is fed. 7. Device according to one of claims 3 to 6, characterized in that that the counting device (46) has two amplitude filter circuits (43, 44) for screening the horizontal and vertical sync pulses of 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 counting input via a decoding device (48) only during a predeterminable number of signals is released. 8. Device according to claim 7, characterized in that the predeterminable Number corresponds to the number of image content-free signals.