RU99100388A - METHOD AND EQUIPMENT FOR ENSURING THE INTEGRITY OF BIT ACCOUNT AND SYNCHRONOUS TRANSMISSION OF DATA ON A CHANNEL THAT DOES NOT KEEP SYNCHRONIZATION - Google Patents

Claims (22)

1. A method of maintaining synchronization and integrity of the bit count for a synchronous data stream, which is transmitted by a medium that does not preserve the synchronous nature of the synchronous data stream, characterized in that it includes the following steps: outputting a constant bit rate stream by the terminal equipment unit, receiving a constant bit rate stream in the block communication, the issuance by the communication unit of the first data frame containing the first set of bits from the bit stream of constant speed and the first value of the length field, the issuance of the second o a data frame containing a second set of bits from the constant bit rate stream and a second value of the length field, in which the second value of the length field is a modular number determined by the first value of the length field and the number of bits in the second set of bits, the communication unit issuing a third data frame, comprising a third set of bits from a constant bit rate stream and a third length field value, in which a third length field value is a modular number determined by a second length field value and a bit number in the third set of bits, transmitting by the communication unit the first, second and third data frames, receiving the first data frame in the base unit and queuing the first set of bits, receiving the erased frame instead of the second data frame in the base unit and queuing the set of filler bits, in which the number of filler bits in the set of filler bits is equal to the maximum possible number of bits that can be contained in any frame, and receiving in the base unit a third data frame, determining based on the first value of the length field and t the third value of the length field, the number of bits in the second set of bits and writing in the queue of the third set of bits on top of a number of redundant filler bits, in which the number of redundant filler bits is equal to the difference between the maximum possible number of bits that may be contained in any frame, and the number of bits in the second set of bits.  2. The method according to p. 1, characterized in that the first block of terminal equipment contains a cipher block, and the communication unit contains a remote device dispatch communication system.  3. The method according to p. 1, characterized in that the transmission step further includes the step of transmitting the first, second and third data frames over a wireless communication line.  4. The method according to p. 3, characterized in that the wireless communication line is a code-link multiple access communication line.  5. The method according to p. 3, characterized in that the wireless communication line is a time-lapse multiple access communication line.  6. The method according to p. 1, characterized in that it further includes the step of transmitting the first data frame, a certain number of filler bits equal to the number of bits in the second set of bits, and the third data frame from the queue in the form of a continuous bit stream.  7. The method according to p. 6, characterized in that it further includes the step of receiving a continuous stream of bits in a secure telephone device.  8. The method according to p. 1, characterized in that the queue is a cyclic buffer.  9. A method for providing a constant-bit rate stream in a communication system, characterized in that it includes the following steps: receiving a first data frame containing a first number of bits and a first value of a length field, queuing a first data frame, moving a record pointer to indicate a queue position for the next received bit, receiving the erased frame instead of the second data frame, queuing the first number of filler bits in accordance with the record pointer, moving the record pointer to indicate with the traveling bit after the last of the first number of filler bits in the queue, receiving a third data frame containing a third number of bits and a third value of the length field, determining the second number of bits in the second data frame based on the third number of bits, the first value of the length field and the third value length fields, and moving, if necessary, the record pointer to the next bit after one of the bits of the specified first number of filler bits in the queue, so that the actual number of filler bits is added to the queue, Noe second number of bits.  10. The method according to p. 9, characterized in that the first number of filler bits is equal to the maximum number of bits that can be received in any frame.  11. The method according to p. 9, characterized in that the first number of filler bits is equal to the average number of bits per frame in the data stream with variable speed, frame representation and not error free.  12. The method according to p. 11, characterized in that it further comprises the step of queuing up the second number of filler bits and pointing to the next bit after the last bit from the second number of filler bits, so that the total number of bits is added to the queue -fillings equal to the second number of bits.  13. The method according to p. 9, characterized in that the queue upon receipt of the initial frame generates a constant-rate bitstream.  14. The method according to p. 9, characterized in that the third value of the length field is equal to the sum modulo the first value of the length field, the second number of bits and the third number of bits.  15. A device for generating a constant speed data stream with an integral bit count from a sequence of variable speed data frames and erased frames, characterized in that it contains an adaptation level in the protocol stack that receives a sequence of variable speed data frames and erased frames, each frame being characterized by a length frame and the value of the length field in this case, when receiving an erased frame, the adaptation level produces a fixed number of filler bits and, when receiving the first data frame, it is accepted go after the specified erased frame, determines and issues the length of the erased frame based on the first value of the length field and the first frame length corresponding to the first frame received after the specified erased frame, and a queue that generates a constant speed data stream that accepts a fixed number of bits - placeholders and receives data corresponding to each non-erased frame of the sequence, and which forms for the constant bit rate stream the total number of fixed number of placeholder bits equal to the length erased frame.  16. A device for providing a constant speed data stream with an integral bit count from a variable speed frame sequence, in which at least one frame from the variable speed frame sequence can be an erased frame, characterized in that it contains an adaptation level in the protocol stack, which takes a sequence of frames of variable speed, and each frame is characterized by a frame length and a frame length value, while the first frame is taken as an erased frame, respectively the frame length and the corresponding value of the frame length is unknown, and the adaptation level provides frame data from each frame of the variable speed frame sequence, which is not accepted as the specified erased frame and determines the corresponding length of the erased frame, first of all, which receives frame data from the adaptation level, generator fill, which produces filler bits, and a switch that connects the output bit stream constant speed to the first queue to transmit each frame to the successor of frames of variable speed, which is not accepted as the specified erased frame and which connects the output constant-speed bitstream to the fill generator for the period of time necessary to transmit a sequence of bits having the corresponding frame length of the erased frame when data from the first frame should be transmitted if so that the first frame would not be accepted as the specified erased frame, and the switch can connect the output bitstream of constant speed to the fill generator before the adapt level tion determines the proper frame length.  17. A device for ensuring synchronization and integrity of the bit count with a minimum delay for a variable-speed data stream with a frame representation and not error free, characterized in that it comprises means for receiving a first data frame containing a first number of bits and a first value of a length field, means for queuing the first data frame and moving the recording pointer to indicate the queue position for the next received bit, means for receiving the erasure indicator in place of the second data frame, means queuing up the first number of filler bits in accordance with the recording pointer and moving the recording pointer to indicate the next bit after the last bit of the first number of filler bits in the queue, means for receiving a third data frame containing a third number of bits and a third length field value , means for calculating the second number of bits in the second data frame based on the third number of bits, the first value of the length field and the third value of the length field, and means for moving, if necessary, a pointer records to indicate the next bit after one of the bits from the first number of filler bits in the queue, so that the actual number of filler bits equal to the second number of bits is added to the queue.  18. The device according to p. 17, characterized in that the first number of filler bits is equal to the maximum number of bits that can be received in any frame.  19. The device according to p. 17, characterized in that the first number of filler bits is equal to the average number of bits per frame in the variable speed data stream, with a frame representation and not error free.  20. The device according to p. 19, characterized in that it further comprises means for queuing the second number of filler bits and moving the record pointer to indicate the next bit after the last of the bits from the second number of filler bits, so that the total number of bits is added to the queue -fillings equal to the second number of bits.  21. The device according to p. 17, characterized in that the queue, upon receipt of the initial frame, begins to form a constant-rate bitstream.  22. The device according to p. 17, characterized in that the third value of the length field is equal to the sum modulo the first value of the length field, the second number of bits and the third number of bits.