DE3249975C2 - Digital transmission of video-telephone and video signals - Google Patents

Abstract

Both video and/or video-telephone (BiFe) signals with a bit rate of 139,264 Mbit per sec. according to CCITT are transmitted in a PCM quarternary system. The analog video, or BiFe signal is digitally coded to a rate of 135 Mbit per sec.. The transmit side has a multiplexer for bundling the coded video, or BiFe signal, a synchronising signal, signalling and narrow band signal to a multiplex signal with a bit rate of 139,264 Mbit per sec..The receive side has a demultiplexer for a treatment in reversed direction to form the individual signals. The multiplexer generated and by the demultiplexer received signal has a frame with 2176 time slots, each time slot consisting of 10 bits. Pref. the frame is divided into 32 lines and 68 columns, with each time slot marked by its line and column number respectively. The transmission takes place serially over lines

Description

The invention relates to a time-division multiplex method according to the Preamble of claim 1.

In the magazine Frequency, 1978, Issue 10, pages 281 to 287, is a transmission system for digital transmission described by plesiochronous 64 kbit / sec data signals, at that in predetermined time slots of a time frame Synchronous characters are housed and the impulse plug is applied.

The object of the present invention is for one synchronous multiplexer or demultiplexer according to the DE 32 27 780 with an optimal, uncomplicated frame structure specify a suitable time slot length.

The solution is provided with those specified in claim 1 Means.

The multiplex frame according to the invention with 10-bit time slots has the advantages of a speed reduction by a factor of 10 compared to a 1-bit time slot and that exactly one sample value for one pixel can be transmitted in one time slot with 10 bits.

Further advantages result from optimal configurations the invention according to the dependent claims. By the Matrix structure of the multiplex frame in 32 lines and The advantage of 68 columns is that each column has one represents transparent 2 Mbit / sec channel.

The fact that for synchronization equidistant in the frame distributed, each containing a sync word 10-bit time slots are provided, one results compared to more effective synchronization 1-bit synchronization time slots.  

By assigning a first column for Synchronization signaling purposes, stereo sound channels and other purposes and by assigning a second column, which is an equidistant distance from the first column of 33 Has columns, to a transparent PCM-30 channel, results for the video information in the 33 each intermediate columns is included, an optimal small memory.

By the cheap choice of the bit sequence 111000100 for the Frame synchronization word results in a very fast Synchronization because this sequence including its inverted version good autocorrelation properties have, which are characterized in that at Bit shifts only small Probabilities of agreement with the rest Information arise. By the inverse choice of the second There is also a synchronization word Synchronization comparator with an almost identical one Realization.

There now follows the description of the invention with reference to FIG Figure.

The figure shows an embodiment for a multiplex frame according to the invention with time slot arrangement.

In this figure, the matrix-like structure of the frame is included 68 columns and 32 rows recognizable. Columns 2 to 34 and Columns 36 through 68 are for the transfer of Video information provided for column 1 for the Transmission of frame synchronization, (stereo) audio channels, Signaling and other purposes and column 35 for a transparent 2048 kbit / s channel, e.g. PCM-30 or 2 x Stereo sound channels. Column 1 contains the frame identifier in  every fourth line, starting at line 1, where in line 1 the frame identifier R = 1111000100 and in the rest of the lines mentioned the inverted information  is housed. In the even lines becomes a 1024 kbit / sec stereo sound channelT transferred, in on the last line is a sound stuffing time slotST housed is in the case of a positive stopper. The Sound stop signalingTS takes place on the third line. in the The case of negative stuffing for sound is the first Time slot of the eleventh line provided (TÜ). With this Allocation given are maximum deviations from Tone bit rates of 6 × 10⁻² permitted. This is done in line 7 Signaling for tampingPS for one 2.048 Mbit / sec channel, for example PCM-30, as in the Column 35 (P) is provided. In the case of the negative stopper in the nineteenth row of the first column, the overflow PU transmitted, and in the case of positive stuffing the serves last time slot of the line35 (SP). For surveillanceA  is a time slot on the fifteenth line of the first Column provided, and on the twenty-third row this first column is a time slot for example Facsimile transmissionFX intended. In the twenty-seventh Time slot of column 1 is a 64 kbit / sec channelF free available, and in the thirty-first time slot this The first column is the signalingS for the Telephony video transmission.

As already indicated above, the video or BiFe information is transmitted in the remaining columns, in order to reduce the effect of burst errors, the picture blocker signaling SKB is accommodated in two far-apart time slots in the frame. Together with the actual stuffing information, which is located in the twenty-second row of the twenty-fourth column ( SB ), the stuffing time slots are distributed equidistantly in the frame.

Of course, if compatibility with the PCM frame password is desired, this in the 1st Time slot and in the 1st part of the 2nd time slot will.

Claims (6)

1. Time division multiplex method with a bit frequency of 139.264 MHz for transmission tasks in a digital broadband network, characterized in that for the transmission of a video or video telephone signal and a stereo sound channel with a total of 136.192 Mbit / s and a transparent channel with 2.048 Mbit / s and other channels 64 kbit / s a frame structure of the digital time division multiplex system is used, which consists of 2176 time slots with 10 bits each and whose frame frequency is therefore 6400 Hz, corresponding to a capacity of 64 kbit / s per time slot, with 2128 time slots on the video or video telephone signal with stuffing identification and stuffing information and the stereo sound channel with stuffing information are omitted, 32 time slots on a transparent channel and a stuffing time slot for the transparent channel are omitted, that the first time slot is used for frame synchronization, that the other 15 time slots are used for the transmission of synchronization signals serve, stuffing signals or information. 2. Time division multiplex method according to claim 1, characterized characterized in that 8 time slots for Frame synchronization are provided. 3. Time division multiplexing method according to one of claims 1 or 2, characterized in that the frame is divided into 32 rows and 68 columns, each time slot being characterized firstly by its row number and secondly by its column number ( Z, S ) and wherein the transmission row by row. 4. Time division multiplex method according to claim 3, characterized in that the time slots of a column ( 35 ) for transmission of the transparent channel with 2.048 Mbit / s and the time slots of a column offset by 34 columns ( 1 ) for transmission of a stereo sound channel with 1.024 Mbit / s and of synchronization, signaling, stuffing signals and possibly information are provided. 5. Time division multiplex method according to one of claims 3 or 4, characterized in that the video or Video telephone signal in columns 32 to 34 and 36 to 68 is transmitted. 6. Time division multiplex method according to one of claims 3 to 5, characterized in that the first time slot in every fourth line, starting with the first line, to Frame synchronization is used.