DE767251C - Telephony and telegraphic confidentiality facility - Google Patents

Description

Facility for the secrecy of telephony and telegraphy In many In some cases it is »desirable to send messages by telephone or telegraph during the 'transmission from the transmitter to the receiver, - the transmission being wireless or via lines, against unwanted knowledge of the content of the Protect messages from .third party. Known are facilities where For example, the material to be kept secret is stored magnetically; then cut up and eventually the individual pieces will be scrambled. Here are known Facilities the individual pieces' different lengths, other known facilities use pieces of equal length. The scrambling of pieces of equal length that still have the character of the original text does not guarantee a high degree of secrecy.

The present invention relates to.: In methods for secret Transmission of messages on a rotating magnetic barrel-shaped Memory stored in groups arranged pieces of the length of the circumference of the roller and can be scanned in any order after full storage of a group. According to the invention, the individual pieces are a Group with each other different phase position scanned and on the receiving side with respect to phase position and sequence stored on a roller in such a way that after scanning it again Plain text results. In the method according to the invention, a phase shift is used of the recorded material in order to destroy the original character of the text made within each piece, for example, for each piece there are six possibilities for phase shifting. This occurs in a Arrange each phase shift value only once. Accordingly, there is now for the possibility of splitting up within each group once in the sequence of the pieces, then in the direction of the phase shift possibilities or in both Swap directions at the same time.

In the present arrangement, the memory is a roller covered with steel wire is tightly wrapped. The memory is divided into three groups, for example, where at the same time is saved to group i, group 2 is deleted and within Group 3 is sampled out of phase and scrambled at the same time .. Is the Storage possibility on group i exhausted, then group 3 has been scanned completely and group: 2 deleted, the activities in the individual groups are shifted then by one group, so that now scanned in group i, stored in group 2 and group 3 is deleted, etc.

The figure shows the basic structure of the confidentiality device according to the invention. The encryption device is designated with I and the decryption device with II. Both memories A and B run synchronously and in correct phase. For example, the process of telephony encryption is tracked. Accordingly, the frequency generated in the microphone i is fed to an input amplifier 2 and from here it arrives at the distributor 3 of the encryption device I. This distributor now distributes the spoken text to be encrypted to the memory in such a way that one after the other is sent to group i , Group 2, group 3, then again group i and so on. In order to record the material to be encrypted on the memory, write heads 4, 5, 6, 7 etc. are provided which are connected to the distributor 3. According to the figure, each group includes six write heads, which are actuated by distributor 3 in sequence for the purpose of responding. A step switching value with a seamless switching sequence is assumed as distributor 3, for example, which receives its incremental pulse after each revolution of axis A. This means that the individual write head is only effective during a memory cycle. For the sake of clarity, only the storage tracks of the cylindrical storage unit are shown in the illustration. The scanning heads 8, 9, 10, 11, 12 and 13 which are used for scanning, that is to say six pieces per memory path, are also attached to these memory paths, as well as an erase head i4 per memory path. Only one of the scanning heads distributed around a memory path can ever be effective, which scanning head that is depends on the desired phase shift of the material stored on this memory path. Education in the waste are all available scanning heads. functionally set on their memory paths in such a way that no phase shift value is duplicated. The selected for scanning on the individual storage lanes scanheads are a distributor 1 5 associated group moderately. This distributor is similar to distributor 3 and is also updated after each storage cycle. Within each group of the manifold 15, the Ver.vürfelung the already phase shifted pieces will now be made, ie, the individual storage tracks are defined by their phase-shifted scanning heads to the manifold 15 that, as in the case shown, the manifold 1 5, the storage paths of the Group 2 (hatched tracks) is scanned in the following order: memory track 6, i, 5, -3, 2, 4. Thus, a scrambling of six phase-shifted pieces is guaranteed. It is now easily possible to swap the other two groups with respect to the memory path sequence when scanning the other two groups; It should also be pointed out that other phase shifts can also be used in these groups. In the case shown, for example, there is the following scrambling plan in groups in phase-shifted pieces: Group i: 5, 4; 2, 6, i, 3; Group 2: 6; i, 5, 3, 2, 4; Group 3: 6, 5, 4, 3, 2, i. The order present in the individual groups can be changed from time to time as required, or even immediately after the group in question has been scanned. A key change within a group is only possible if the group in question is either saved or deleted, or even while both are happening one after the other. Erase heads have already been mentioned before. As is known, an erase head is assigned to each storage lane. All existing erase heads are in turn assigned in groups to a distributor 16, which, like distributors 3 and 15, is switched on after each revolution of the storage roller. In the distributor 16, the circuit is kept so that all memory paths of a group are erased during six revolutions.

The extinguishing torch is taken from the extinguishing current source 17 in the case shown. As already known; always stored in one of the groups, scanned in the group following this group and in the. the following group is deleted, the position of distribution lists 3, 15 and 16 must be eritsprethend, i. h: according to the figure, for example, data is started on group 3 via distributor 3, at the same time the scrambled scanning of the phase-shifted pieces of group 2 is started via distributor 1 5 , while at the same time the deletion of the entire group i begins via switch 16. The pre-encrypted text coming from distributor 15 is transmitted wirelessly via an output amplifier or via a line to the recipient. The recipient has a decryption device II, which is similar in structure to the encryption device. There is a difference insofar as in the decryption device the encrypted text coming from the input amplifier is correctly classified by distributor 18 with regard to the sequence of the individual pieces and phase shift within the individual piece, i.e. if distributor 15 is in encryption device i, as shown in the figure , in the second group scans the piece 6 phase-shifted by a certain amount as the first piece in this group, then distributes this phase-shifted piece 6 in the decryption device II to the sixth memory path of group 2, namely ', from the scanning head ig the Storage track 6 in group: 2 viewed from, in the correct phase position. The correct phase position is always achieved when those heads that are scanning heads in the encryption device become write heads in the decryption device or the write heads in the encryption device become scanning heads in the decryption device. The distributor 18 in the decryption device must therefore run synchronously and in correct phase with the distributor 15 in the encryption device. The distributor 2o works as a scanning distributor, specifically in such a way that it scans the stored group piece by piece. For example, in the formation of the exhaust manifold 20 in group i the memory path. Scan i via scanning head 21, then memory path; 2 via scanning head 22, etc. In this way, the plain text is obtained again. Distributor 2o is the already known extinguishing distributor, because emptied memories must also be deleted in the decryption and encryption device, this also happens, as already known, in groups from an extinguishing power source 25. The plain text picked up by distributor 2o is fed to an output amplifier and can can then be monitored. The interaction of the three distributors 18, 2o and 24 is similar to that in the encryption device, if, as shown in the figure, distributor 18 is storing data on group 2, then group i is scanned by distributor 2o and by distributor 2q. group 3 is deleted.

Claims (3)

PATENT CLAIMS: i. Procedure for the secret transmission of messages, which are arranged in groups on a rotating, the, magnetic cylinder-shaped memory Pieces of the length of a roller circumference stored and in any order after full storage of a. Group are scanned, characterized in that the individual pieces of a group with mutually different phase positions scanned and on the receiving side with regard to phase position and sequence on a roller are stored in such a way that clear text is obtained again after scanning. 2. Method for the secret transmission of messages according to Claim i, characterized in that that the duration of one revolution of the roller-shaped memory of the temporal length of a corresponds to a single piece. 3. Procedure for the secret transmission of messages according to claim i or 2, characterized in that after each storage circulation one Complete disconnection or connection of heads takes place. . Facility for exercising the Method according to claim i to. 3, characterized in that the phase shift of a piece is generated by a scanning head which is opposite to the. Write head is shifted by an angular amount in the memory path direction. 5. Facility for Exercising the method according to claim i to q., Characterized in that each Phase shift value exists only once in an arrangement. 6. Establishment for performing the method according to claim i to 5, characterized in that several Pieces form a storage group. 7. Establishment to carry out the procedure according to Claim i to 6, characterized in that three groups are used, so that within a group piece by piece or exchanged saved is swapped in the following group or is scanned piece by piece and is deleted in the group preceding the group to be saved. Ä. facility for performing the method according to claim i to 7, characterized in that -for a switch is provided for each memory scanning and erasing process. 9. Establishment for performing the method according to claims i and 2 ,. characterized in that the switches provided in an arrangement for the memory scan and erase operation run synchronously with each other, in phase differ by a group distance. ok Device for performing the method according to claims i to 9; characterized, that the switch for the scanning process in the encryption device with the switch runs in phase and synchronously for the writing process in the decryption device. i i. Device for practicing the method according to one of the preceding claims, characterized in that. the encryption plan used for the transmission regarding interchanging the pieces or changing the phase shift within of a single piece can be changed manually or automatically. For demarcation of the subject matter of the invention from the prior art are the following in the grant procedure Publications considered: German Patent No. 6o3 261; British U.S. Patent No. 385,535.