DE767229C - Method for keeping telegraphy, telephony and other signals secret, in which a cylindrical rotating memory is used for magnetic storage in the transmitting and receiving device - Google Patents

Description

Method for keeping telegraphy, telephony and other signals secret, in which a roller-shaped, rotating one is used for magnetic storage in the transmitting and receiving device. Memory is used.There are known methods which, for the purpose of secrecy of telegraphy and telephony, divide the streams to be transmitted into pieces and then swap these pieces in such a way that pieces originally closely spaced are separated further and that other pieces of the same transmission stream are pushed in between. For this purpose, such methods use delay or storage devices in connection with changeover switches. Some of the managed processes swap content-related pieces of the same length, others swap pieces of unequal length. A scrambling of content-related pieces of the same length harbors the risk of relatively easy decipherment. Of the processes that swap unequal pieces, one has. There is the disadvantage that with this method periodically recurring pieces do not take part in the exchange. This fact has disadvantages insofar as it gives clues for deciphering; In addition, these non-interchangeable pieces make it easy to identify the character of the original broadcast, especially if they repeat periodically. In order to largely eliminate these disadvantages and thereby expand the range of use of an encryption device, a method for keeping telegraphy, telephony and other signals secret is used in the present invention Memory is used, on the extent of which on the transmitter side axially aligned Aufrechorgane are effective; in such a way that, during one revolution of the roller store, two or more temporally successive pieces of the same length of the material to be encrypted so. are stored so that a piece is always stored on a different path and after full storage of the individual paths with pieces of equal length in different order these paths are sensed by scanning elements, the scanning elements according to the invention being attached so that each scanning element assigned to a path starts from the recording element is arranged offset by a different angle and the scanning process is controlled in the same cycle as the Aufspreechvorgang, so that pieces of the same length are scanned by the individual scanning element but incoherent in terms of content, insofar as these pieces of unequally long parts are already more incoherent in terms of content Put pieces together. On the receiving side, these interchanged pieces of unequal length are properly rearranged by the fact that in the receiver whose structure is identical to the transmitter the organs are recording organs that are Abtas.torganee .sind in the transmitter, and the recording organs on the transmitter side are scanning organs in the receiver. This method is explained in more detail in the figures, but it should be pointed out at the outset that it is advisable to use two or more memory groups for scrambling arrangements, because while one group is being saved, the second group that has already been saved is stored in accordance with the currently set Scrambling sequence emptied. Accordingly, in Fig. I, the material to be kept secret coming via the line M has been given by a: changeover switch Ui to the opening devices SI 5 2, S3, S4, S5 and S, in accordance with the circuit given as an example. These speaking organs act on storage tracks Bi to B, a roller-shaped memory, which are indicated in Fig. I as concentric rings for the sake of clarity. The above-mentioned changeover switch Ui now works in such a way that, for example, it advances one contact point after every half storage cycle. So the first piece of the material to be encrypted would have been produced by the fact that during half a cycle the recording head S4 was connected to the line NI via contact i in the changeover switch Ui. This first piece is thus placed on one half of track B4. During the next. half a turn of the memory, the piece would be stored on the track Bi us-, v. After six revolutions of the roller storage system, twelve pieces of the same length would have been distributed over the six storage lanes in the manner indicated. If the opening organs S1, S2, S3, S4, S5 and S would become scanning organs and would be effective one after the other, then there would be an interchanging sequence of pieces of equal length & according to Fig. 2; in this figure the time vector is to be thought of as directed from left to right.

However, the interchangeability image shown in Fig. 2 is of equal length from previously mentioned. Reasons to be described as unfavorable. To achieve of a cheaper substitution mask with pieces of unequal length, such as. it the invention Arranged arrangement, the scanning elements A, to As so, are attached to the individual memory lanes scheduled that they should speak to the public speaking organs belonging to the railway concerned S to S6 form an angle 99. The changeover switch U2, which is in the same cycle as the changeover switch Ui works, now switches the individual scanning elements to the line L. Through the offset scanning is now achieved that during half a memory cycle two pieces of different length can be produced.

For example, with section A5 in Fig. I, part of the Piece i i and a part of the piece until half of the memory circulation has been completed 4 are sent via the switch U2 into the line L, then arrives then via contact i of the changeover switch U2 and scanning element A, a part of piece 2 and 5 into line L.

For example, the following scanning sequence is assumed in FIG.

i. half revolution of the memory ... scanning element A2 and contact a of the switch U2, 2nd half revolution of the memory. . . - scanning element As and contact b of switching U2, 3rd half revolution of the memory ... scanning element A3 and contact c of switching U2, 4th half revolution of the saliva. . . . Sensing organ A2 and contact d the . Switchover U2, 5.-. half turn of the: memory ... scanning element A5 and -contact- e of the switching U2, -6. half turn of the memory. . . Scanning element A1 and contact f of Umisichaltung U2, -7. half revolution of the memory ... scanning element A, and contact g of the switching U2, B. half revolution of the memory '. %. Scanning element A4 and contact h -.der - switchover U2, g. half a revolution of the memory ... folder A1 and contact 7. ' der Umschalturig U2, ro: half a revolution of the memory,. . Abtais.torgan A3 and contact h of Umschalturig U2, z r. half a revolution of the memory. . . From 'touch organ A5 and contact l of the' switchover U2, 12th half revolution of the memory ... Ab.-touch organ A4 and contact m of the switchover U2.

The interchangeability according to this switching sequence, as is the line L picks up, then looks like Fig. 3 shows. While the uranium switch U2 the 'individual pieces., sent to the line in the sequence given above, is Via Umsichalter U1, contacts 13 to 24, on a second group; the sake of clarity is not drawn because it looks exactly like the illustrated group for 6 Tracks; saved for the purpose of continuous transmission of the material. These Group would now be scanned by switch_U2 via di, e contacts n-y, and on the group just scanned, contacts z to 12 would be made via switch U1 get saved. The swapped pieces, either via a line or wirelessly get to the recipient, must be correctly classified there again, so that- the program appears again in its original form. So for this purpose is a reception arrangement is required, which is structured in exactly the same way in all parts like the transmitter. According to Fig. 4, the storage rollers C1 and C2 run with their feed tracks synchronous: The switches U3, U4, U5 and U6 s, e hold in a known manner after each half a round one contact further. The condition for switches U4 in the transmitter and Switch U, in the receiver is synchronous and correct phase run: Below the specified Conditions are corrected, the swapped pieces in the recipient then; if the organs that are scanning organs in the transmitter are speaking organs in the receiver or the Aufnachorgane in the transmitter are scanning devices in the receiver, provided is that both facilities are set up completely the same.

Claims (5)

PATENT CLAIMS: r. Telegraph confidentiality procedure: Telepho.nie and other signals, in which for the magnetic storage in the transmission and Receiving device a roller-shaped, rotating memory is used on whose scope axially aligned recording organs are effective on the transmitter side, in such a way, that during one revolution of the roller accumulator two or more successive ones in time Pieces of the same length as the material to be encrypted are stored in such a way that that a piece is always stored on a different path and after being fully stored of the individual tracks with pieces of the same length in different order Paths are sensed by scanning elements, characterized in that the scanning elements are attached in such a way that each scanning element assigned to a path from the Aufsp.rechorgan is arranged offset by a different angle and the scanning process controlled in the same cycle - is: like the recording process; so that through the individual _ Scanning organ Pieces of the same length, however, scanned in context with regard to their content insofar as these pieces are made up of parts of unequal length from two others Put together pieces that are already disjointed in terms of content. 2. The method according to claim r, characterized in that in its structure the receiver is identical to the transmitter for the purpose of correcting the swapped pieces organs provided in the receiver are scanning organs and those in the transmitter for the scanning process designated organs in the recipient are public speaking organs. 3. The method according to claim z and 2: characterized in that in the transmitter arrangement the scanning elements-axially are aligned. and the talk; ongane, starting out. from the assigned scanning element, are offset by angular amounts. 4. The method according to claim 3, characterized in that that in the receiving arrangement, the Aufnachorgane are axially aligned and the Sensing organs; based on the assigned recording Organ to angular amounts are offset, the angular amounts of the associated recording organs in the transmitter correspond. 5. The method according to claim r to q., Characterized in that each Offset angle exists only once in a facility. Procedure according to Claim z to 5, characterized in that the offset angles of the scanning or recording organs at the sender and receiver changed at the same time from time to time can be. To divide the subject matter of the invention from the prior art the following publications have been considered in the granting procedure: German Patent Nos. 3: 276: 26, 555 095; British Patent No. 385 535