FR2524242A1 - Coding recognition circuit for TV transmission system - uses error counter to operate bistable of received signal agrees with reference - Google Patents

Abstract

A switching circuit receives a combined line and frame sync. signal from a separator circuit. An extraction circuit comprising an integrator receives the video signal and also the selector circuit output and applies its output to an exclusive OR circuit. This circuit receives a digital reference sequence identical to that transmitted in the last line of each frame and provided by a divider. The OR circuit provides a logic O output if there is agreement between the two input signals. This signal is passed to a counter which totals the number of errors detected. A comparator controls a bistable to issue an output in recognition of a coded transmission if the number of errors is below a defined value.

Description

ENCRYPTION RECOGNITION CIRCUIT FOR TRANSMISSION SYSTEM
TELEVISION TRANSMISSIONS AND TRANSMISSION SYSTEM
ENCRYPTS INCLUDING SUCH A CIRCUIT
The present invention relates to the field of so-called encrypted television and relates, more specifically, to an encryption recognition circuit for a system for transmitting television broadcasts which may be encrypted or in the clear according to the circumstances. It also relates to any system for transmitting encrypted broadcasts comprising such a circuit.

 French patent application No. 75 34 029 filed on November 3, 1975 by the French State describes a method for encrypting and decrypting television programs which is theoretically compatible with the broadcasting of normal unencrypted programs and which provides, at , for this purpose, the transmission of a service message indicating the encrypted nature of the transmission No indication is given in this document on the use of this message when receiving information.

The object of the invention is to propose, in a system for transmitting television programs implementing the method described in the aforementioned request, a circuit for recognizing the existence or not of encryption of the information transmitted.
To this end, the invention relates to a system for transmitting television programs comprising successively
a device for conditional encryption of the information contained in the television lines, this encryption being operated by imposing on the image signal of each television line delays determined according to a succession law fixed with the aid of a first generator of pseudo-random digital sequences and by imposing on the synchronization signal of lines and frames a common delay equal to the lowest of these delays
- a channel for transmitting information thus encrypted
a device for decrypting the transmitted information which is encrypted, this decryption being effected by imposing on the image signal contained in each of this transmitted information delays determined according to a law of succession fixed by a second generator of pseudo-random digital sequences synchronized with the first, this law being complementary to the law of succession of delays to encryption to equalize the sum of the delays applied to the image signal of each line, and by imposing on the synchronization signal contained in this transmitted information of a common delay equal to most of these delays used in decryption
an encryption recognition circuit characterized in that, with the existence of encryption and synchronization information being inserted on transmission in two of the lines of the television picture in place of the normal picture signal and under the form of a digital referencing sequence, it includes
(A) a selection circuit receiving the line and frame synchronization signal to deliver from this a signal forming time windows intended to frame those of the lines which contain said encryption existence information;
(B) an extraction circuit receiving on a first input the successive information contained in each television line and on a second input the output signal of the selection circuit, to deliver a binary signal indicative of the content of this line selected in each weft
(C) a circuit intended to deliver the digital reference sequence
(D) an OR-exclusive circuit receiving on a first input the output signal of the extraction circuit and on a second input said digital reference sequence, to deliver a signal indicating the identity or not of this sequence and of the content of the selected line
(E) a counter of the number of times this identity - or on the contrary the difference is noted in a group of successive frames determined, with, via a comparator, triggering of a toggle or not depending on the result counting with respect to a determined threshold value, the output signal of this flip-flop constituting the output signal of the encryption recognition circuit, indicating the existence of encryption.

 The structure thus proposed makes it possible to recognize the existence of encryption by detecting the identity between a reference digital sequence and a sequence included at a determined location in the information transmitted, while avoiding the risk of performing a erroneous recognition of encryption by confusion between sequences.

The features and advantages of the invention will now appear more precisely in the description which follows and in the appended drawings, given by way of nonlimiting example and in which
- Figure la is a very schematic view of the transmission system and Figure lb shows, more specifically, the encryption recognition circuit provided at reception
- Figures 2a Q 2d show the appearance of the signals at different points in Figure lb.

 - Figure 3 is a truth table specifying the conditions for obtaining the signal of Figure 2d.

 The encryption recognition circuit described above is part of a transmission system comprising in particular, on transmission, a device 100 for encrypting the information contained in the television lines and, on reception, a device 500 for decryption encrypted information transmitted via a channel 300 (see Figure la). In accordance with the method described in the document cited above, the encryption is operated by imposing on the image signal of each television line delays determined according to a law of succession fixed by a generator of pseudo-random digital sequences, and by imposing on the signal of synchronization of lines and frames of a common delay equal to the lowest of these delays. Conversely, in the device 500, the decryption is carried out by imposition on the image signal contained in the information transmitted of delays determined according to a law of succession complementary to that used on the emission, in order to equalize the sum of the delays applied to the image signal and recover image signals all synchronized and therefore allowing the reconstitution of a normal and readable image, and by imposing on the synchronization signal a common delay equal to the most important of these additional delays used for decryption. In the embodiment described here, the delays are equal to O, R and 2R respectively.

Encryption existence information is therefore inserted on transmission in the information to be transmitted, for example in a line of each frame and more precisely in the last complete line, in the form of the following sequence
1 0 0 0 0 0 1 0 0 0 0 0 1 0 0 .....

 that is to say that a white level is transmitted every six frames in the last line of each frame (line h22 for the odd frame, line 310 for the even frame), the level of this last line state that black for all other frames. Upon reception, recognition that the broadcast was encrypted or not therefore rests on the observation or not of the existence of this ninth sequence, the presence of which must be detested.

 As shown in FIG. Ib, the encryption recognition circuit comprises for this purpose, first of all, a selection circuit 511, which receives the composite synchronization signal (line + frame) delivered by a separator 501 and makes it possible to locate lines 310 and 622 (see FIG. 2a, where the output signal from circuit 511 appears as formed by a succession of time windows framing those of the lines which contain, if there is encryption, the information encryption). An extraction circuit 512 then receives on a first input the video signal, that is to say the successive information contained in each television line, and on a second input the output signal of the selection circuit 511; this circuit 512, which is an integrator, delivers a binary signal 0 or 1 indicating the content of the lines 310 and 622 selected. The output signal of this circuit 512 (see Figure 2b) is sent to an input of an OR circuit -exclusive 514, the other input of which receives a digital reference sequence identical to that which was inserted at transmission in the last line of each frame and supplied by a circuit 513 which is initialized by the information of svnchronisation. on the show; in the present case, given the chosen sequence, the circuit 513 is simply a divider by six which receives as input the output signal from the selection circuit 511 and whose output signal is represented in FIG. 2c. The output signal of circuit 514 (see figure 2d), which is a "1" when there is no coincidence of the two inputs of circuit 514 and "0" when this coincidence exists (see the truth table in figure 3), is sent to a counter 515, initialized as the circuit 513 and which totals the number of errors detected, this counter being followed by a comparator 516 which commands a flip-flop 517: the transmission is recognized as encrypted if the total errors detected during a determined time is less than a determined value M, and as unencrypted otherwise.

 Of course, the present invention is not limited to the embodiment which has just been described and shown and from which variants of the encryption recognition circuit can be proposed without thereby departing from the scope of the invention .

 It is quite possible, in particular, to use as encryption existence information a different sequence, and then to modify in a corresponding manner the circuits which allow its restitution, mainly the circuit 513 of division by six.

Claims (3)

CLAIMS: 1. In a television transmission system comprising successively:  a device for conditional encryption of the information contained in the television lines, this encryption being operated by imposition on the image signal of each television line of delays determined according to a succession law fixed with the aid of a first generator of pscudoaleat digital sequences and by imposition of synchronization of lines and frames. a common delay equal to the lesser of these delays;  - a channel for transmitting information thus encrypted  a device for decrypting transmitted information which is encrypted, this decryption being effected by imposing on the image sigral contained in each of these transmitted information delays determined according to a fixed succession law - by a second generator of pseudo-random digital sequences synchronized with the first, this law being complementary to the law of succession of delays to encryption to equalize the sum of the delays applied to the image signal of each line, and by imposing on the synchronization signal contained in this transmitted information of a common delay equal to the most important of these delays used for decryption ;;  encryption recognition circuit characterized in that, information on the existence of encryption and synchronization being inserted on transmission in two of the lines. the television picture in place of the normal picture signal and in the form of a digital sequence.  (E) a counter of the number of times this identity or on the contrary the difference is noted in a group of successive frames determined, with, via a comparator, triggering of a flip-flop or not depending on the counting result with respect to a determined threshold value, the output signal of this flip-flop constituting the output signal of the encryption recognition circuit, indicator of the existence of encryption.  (D) an OR-exclusive circuit receiving on a first input the output signal of the extraction circuit and on a second input said digital reference sequence, to deliver a signal indicating the identity or not of this sequence and of the content of said selected line  (C) a circuit intended to deliver the digital reference sequence ;;  (B) an extraction circuit receiving on a first input the successive information contained in each television line and on a second input the output signal of the selection circuit, to deliver a binary signal indicative of the content of this line selected in each frame;  (A) a selection circuit receiving the synchronization signal from the lines and the terminals to deliver therefrom a signal forming time windows intended to frame those of the lines which contain said encryption existence information reference risk, it includes: 2. Circuit according to claim 1, characterized in that the digital reference sequence is provided by a frequency division circuit interposed between the output of the selection circuit and the second input of the OR-exclusive circuit. 3. Transmission system for television broadcasts, characterized in that it comprises an encryption recognition circuit according to one of claims 1 and 2 and intended to make it possible to recognize whether the information transmitted is encrypted or not.