SU766039A1 - Device for compression of television signal - Google Patents

Description

Otos' invention (1tc to television and can be used in systems of applied and space television, video telephony and video recording of television and television programs. A device for compressing digital television signals is known, comprising serially connected comparison unit, transmitting symbol selection unit, coding unit and switching unit, a memory management unit and a memory unit, the first output of which is connected to the first input of the bitwise comparison unit, the second output - to the memory management unit, the unit the reference level, the input of which is connected to the input of the analog-digital converter, and the output is connected to the synchronization code, the second input of the memory unit and the first input of the block of time intervals, the first output of which is connected to another input of the analog-digital converter, and The second input is with the second input of the switching unit, the output of which is connected to the third input of the memory unit, while the output of the synchronization code generator is connected to the second input of the coding unit l. However, the known device for compressing digital television signals does not allow obtaining a compression ratio greater than (, (at a certain psychometric quality of image recovery. The purpose of the invention is to increase the compression ratio while maintaining the image recovery quality. For this purpose, for compressing digital television signals containing serially connected block of parallel comparison, block for selecting a transmitted symbol, block of coding and switching block, block of memory control and a memory block, the first output of which is connected to the first input of the one-time comparison block, the second higher stroke - with the memory control block, the block

set the operand level, the input of which is connected to the input of the analog-digital converter, and the output is connected to the synchronization code generator, and to the second input of the memory unit and to the first input of the time interval unit, the first output of which is connected to another axis of the alog-cr (| ) an external converter, and the second output - with the second input of the switching unit, the output of which is connected to the third input of the memory unit; the output of the synchronization code generator is connected to the second input of the coding unit; drove, the first input of which is connected to the output of the analog-digital converter, the second input - with the third output of the time interval block, the third input - with the output of the reference level setting block, the fourth input - with the first output of the memory block, the nepBMS output is combined with another input switching unit, the second output - with a different input of the one-time comparison unit - the selector control unit, whose output is connected to the fifth input of the input correction unit, the first input - to the first output of the switching unit, the second input - to the output unit of the installation unit: the selector, the first input of which is connected to the output of the selector control unit, the second input to the output of the selector unit GGB of the left character, the third input to the second output of the switching unit, and the input to the second one of the coding block, the third input to which is connected to the first output of the switching unit, and the fourth input - with the fourth output of the time interval unit.

The input signal correction block contains the input code shift block connected in series, the correction code generator, the correction code decoder, and the second memory register, which is connected to the input of the one-time comparison block, and the other input to the other output of the input code shift block, the first which input is connected to the output of the analog-digital converter, the second input is connected to the unit for setting the reference level, the third input is connected to the second input of the decoder of the correction code and the output is to the unit of time intervals , The third correction code decoder input coupled to the output control unit selector vtoroyvyhod connected to the input switching unit, and the third output - with

the fourth input of the block is; two input code; besides, the second input of the correction code generator is connected to the first output of the memory register. FIG. 1 shows a structural electrical circuit of the proposed device; in fig; 2 - input signal correction block, embodiment.

The device contains analog-QI (} flat converter 1, unit 2 for serial comparison, block 3 for selecting a transmitted symbol, block 4 for coding, block 5 for managing memory, block 6 for memory, block 7 for setting the reference level, driver 8 for synchronization code, block 9 correction of the input signal, the selector 10, the selector control block 11, the switching block 12, the block 13 time intervals.

The input signal correction block 9 (see Fig. 2) contains an input code shift block 14, a correction code generator 15, a decoder code decoder 16, a memory register 17.

A device for compressing digital television signals works as follows.

The full video signal is fed simultaneously to the input of the analog-to-digital converter 1 and the input of the reference level setting unit 7. In block 7, a starting pulse is formed that initializes the triggers in blocks 9, 6 and 11, the clock is reset and its operation is prohibited for the time of transmission in the channel of the special sync code, which begins to synchronize the driver of the synchronization code 8. Upon termination of the start impulse, automatically begin operating the time interval where the sampling pulse is formed, at times tg the fixing limits of the time sampling interval, which is delayed within this interval by the time О t d 12 t J, .. Ь Q and at the same time shifted clock pulses to, t, i / 2. accordingly regulating in time the operation of the device.

Claims (2)

At times x. code sequences from the output of analog-to-digital converter 1, containing gbbo bits, in parallel through blesh 9 are fed to the input of block 2, to the other input of which is fed from block 6 the same code sequence, but delayed by one clock interval 7 and formed in the corresponding with the algorithm for restoring the code sequence before converting it to analog at the receiving side. The result of comparing codes in the form of a P bit code of changes of zeros and ones is delivered parallel to the nb two-way input of block 3, where the change in the most significant bit or the character intended for transmission to the channel is selected from the change code. Code of characters containing one; The bit unit, in the n-1 bit zero, is fed simultaneously to the input of control unit 5 Lenin memory and selector Y. Depending on the type of code at the output of analog-digital converter 1, unit 5 recovers the current code from the previous one by the well-known symbol. The recovered code is recorded in block 6, each of the lz bits of which contains an output trigger with resolution. At the time of the arrival of the enabling pulse, the code is fed from the output of block 6 in parallel to block 2 and block 9. Since changes in the higher bits of the original code sequence at the input of block 3 are rare, the code of symbols at the output of block 3 with a high probability changes in younger bits At the input of the selector 10, the code of the characters is divided into K groups according to the distribution of characters in the bits. From the output of the selector 10 P / K, the bit code of the group in which the transmitted symbol is contained is fed to the input of block 4, where the original code of the bit code of the characters is associated with a new code containing 5.eo (.k) bits, At the moments when there is no special synchronization code issued by shaper 8 at the beginning of each line, the output of block 4 is given in a sequential or parallel form at time points scored: block 13. The group number sets the output of block 11, which is a circuit with H steady and states, and the group number is changed in block 11 - (- your pulse, which is generated in block 13 and distributed in block 12 to one of its K-1 outputs. In this case, the information on K-1 moment of change pitch groups with a corresponding clock pulse from block 9. If this information is absent, the .ij-clock pulse gates the selector 1O and changes the code in block 6. The ra mode, the blots 12 are controlled so that gating the selector 1O and the change the code in block 6 at the time of the group change was delayed by switching times multiple to the time-domain sampling interval. This is necessary in order for the 41st clock pulse unit to form a special code. The code must be unambiguously perceived by the receiver as information that subsequent codes refer to a change in the amplitude of the signal when receiving special information is compensated repeating the previous code value. In order to compensate on the side of the amplitude-phase distortion caused by the need to transfer special information, block 9 is entered, the input code sequence is analyzed, and according to the results of the analysis, a convenient moment is selected from one side to transfer group change information, and on the other side the number group shifts This establishes a higher priority for the service of grouping with a lower probability of occurrence of symbols. This makes it possible to naturally redistribute distortions during restoration and those areas of the image where the semantic information is less significant for the recipient. 9 works as follows. The codes from the output of the analog-to-digital converter 1 are accumulated in a block 14 of the input code shift, which is P shift registers. In the shaper 15 of the correction code, the code groups in blocks 14, 6 and 11 are continuously compared, the code formed at the shaper 15 output together with the group code at the output of block 11 forms the complete correction code, which is continuously decrypted in the decoder 16 ;, at the output of which a gating clock with 13 The executive team is busy. This command either enforces | The 1 code shift is in block 14, or it makes changes to the bit state of the current code in order to preserve the group number to be coded. The implementation of the shift operator makes it possible to always ensure, when restoring, the exact phasing of the group with the highest priority, as well as the growth rate of the amplitude of the signal being restored, which is closest to the original one. When a group change command is received, the current code is written to memory register 17, and the clock pulse that performs this operation is sent to start the corresponding K -1 generator in block 12. The positive effect of increasing compression is achieved by introducing a selector for the score of breaking the code of symbols in it is often encoding into groups depending on the statistics of changes and coding for transmitting the code of symbols of the group to the ranks. In this case, the moment of changing the group number is characterized by the transmission of a special code, and the additional amplitude-phase distortions that occur at the moment of transmission of this code are compensated by the introduction of an input signal equalizer, in which correction is made either by an artificial shift of the sequence or by artificial inversion of individual bits code.for a specific program. The introduction of such a corrector and additional control blocks allows, while increasing the compression, the psychometric quality of the reconstructed image. Claims 1. A device for compressing digital television signals, comprising a serially connected bit comparison unit, a transmission symbol selection unit, a coding unit and a switching unit, a memory control unit and a memory unit, the first output of which is connected to. the first input of the block is one comparison; the second output is with the memory management unit, the reference level setting unit, the input of which is connected to the input of the analog-digital converter, and the output is connected to the driver of the synchronization code, to the second input of the memory unit and to the first input of the interval unit time, the first output of which is connected to another input of the analog-digital converter, and the second output - to the second input of the switching unit, the code of which is connected to the third input of the memory unit, while the output of the code generator with nhronizatsii connected to the second input of the encoding unit. 98 characterized by the fact that in order to increase the coefficient of saturation, the output of the analog-digital converter is connected to the first input of an input correction unit, the second input of which is connected to the third output of the time interval unit, the third input to the output of the reference level setting unit, the fourth input the first output of the memory unit, the first output is connected to another input of the switching unit, the second output is connected to another input of the one-way comparison unit, and the fifth input of the input signal correction unit is connected to the output input of the selected control unit, the first input of which is connected to the first output of the switching unit, and the second input - with the output of the reference level setting unit; in addition, the output of the control unit of the selector is connected to the first input of the entered selector, the second input of which is connected to the output of the transfer selector unit character, the third input is with the second output of the switching unit, and the output is with the second input of the coding block, the third input of which is connected to the first output of the switching unit, and the fourth input is with the fourth output of the interval ala time. 2. The device according to claim 1, is distinguished by the fact that the input signal correction unit contains successively connected input code shift unit, correction code generator, correction code decoder, and register, m and m, the output of which is connected to the input of the bit unit comparison, and the other input is with another output of the input code shift unit, the first input of which is connected to the output of the analog-digital converter, the second input is connected to the reference level setting unit, the third input is connected to the second input of the code decoder of the correction code and the output - with a block of time intervals, the third input of the decoder of the correction code is connected to the output of the selector control block, the second output is connected to the second input of the switching unit, and the third output is connected to the fourth input of the input code shift block, in addition, the second input of the correction code generator is connected to the first the output of the memory block. Sources of information taken into account in the examination 1. USSR author's certificate № 582588, cl. H O4 L 25/19, 30.12.77 (prototype). rf . CLH L} -i f ff / FIG 2