SU1037316A1 - Adaptive telemetric device - Google Patents

Abstract

ADAPTIVE TELEMETRIC DEVICE, containing a generalized coordinate calculation unit whose input is connected to the device input, keys, the output of the first key is connected to the first input of the encoder, the output of which is connected to the device output, the output of the second key is connected to the second input of the encoder and the adder - with the first input of the comparator unit, the second input of which is connected to the bus of the tolerance signal, that is, so that, in order to simplify the device, programs have been entered into it mm-time block, address register, code comparison block, memory block counter, the counter output is connected to the inputs of the memory block, the third key and the program-time block, the first, second and third outputs of which are connected respectively to the first input of the address register, the first counter input and the second input of the computed coordinates block, the output of which is connected to the second input of the memory block, the fourth output of the software-timeglass block is connected to the combined first inputs of the first, second and fourth keys, the output the fourth key is connected to the third input of the memory block, the fifth output of the software-BpeMeiffloro block is connected to the combined second (About the counter and address register inputs, the first output of which is connected to the combined second inputs of the first and fourth keys, the second output to the fourth input the memory block, the first and second outputs of which are connected respectively to the first and second inputs of the code comparison block, the output of the comparison blocks of codes 00 is connected to the second input of the third frequency, the output of which is connected to the third X-code of the address register, rety v15sod unit with memory - with a second input of the second switch, the output of comparator unit - a second Ekodom program-time block.

Description

The invention relates to telemetry and computing and can be used to transmit and process compressed communications.

Data compression devices 5 are known with adaptation according to the number of circumscribed coordinates, containing a storage unit, a disparity indicator generator, a resolver, an essential coordinate selector, an address component 10 generator, and an adder LlJ.

The disadvantage of these devices is the low data compression ratio due to the choice of approximation intervals constant for approximation intervals. 15

The closest to the proposed technical entity is an adaptive telemetry device containing an analyzer (generalized coordinates calculation unit), the input of which is connected to the device’s home, the outputs with the inputs of the corresponding keys and the first inputs of the corresponding discriminators, the second and third inputs of which are connected to the corresponding inputs A generator of stresses, the clock input of which is combined with the clock input of the calculating unit, is equipped with the & valuable coordinates and connected to the synchronization input of the device, get out discriminators through differential differentiation elements are connected to single inputs of flip-flops, whose inputs are connected to control inputs of corresponding keys, whose outputs are connected to inputs of code-, p and shaper units of a number, outputs of which are connected to inputs of a torus whose output is connected with the first input of the comparator unit, the second input of which is connected with the first inlet of the comparative unit, the second input of which is connected to the master input of the device, the output of the comparator unit is connected to the single trigger input, output cat cerned connected to the input of the differentiating elements 45 one output of which is connected to zero inputs of flip-flops and the control input of encoder kitsim, zero trigger input connected to an input device 2 sinhronizirukschim .50

However, the known device requires, for its manufacture, such complex blocks as a generator of linearly varying voltage, and the number of discriminators used, differentiating 55 elements, trigger, keys, and formers of the number of modules is proportional to the number of coefficients |

decomposition in the analysis interval, i.e. A device can handle only a fixed number of coefficients.

And since in practice the dimension of the vector of coefficients 1O24 and more is usually used, the hardware costs for the device will be large.

The aim of the invention is to simplify the device.

The goal is achieved by the fact that, in the device containing the computing unit of occupied 15 coordinates, the input connected to the device input, keys, the output of the first key is connected to the first input of the encoder, the output of which is connected to the output of the device, the output of the second key is connected to the second input of the encoder. serially connected modulator of the number module and adder - with the nepBbnv input of the comparator unit, the second input of which is connected to the tolerance signal, the program-time unit, the address penicrp, the code comparison unit, and the memory unit are entered the counter, the output of the counter is connected to the first inputs of the memory block, the third key and the program-temporary block, the first second and third outputs of which are connected respectively to the first input of the address register, the first input of the counter and the BXPUfeiM input of the generalized coordinate calculator, the output of which is connected to the second the input of the memory block, the fourth software-and-block unit is connected to the combined first inputs of the first, second and fourth keys, the output of the fourth key is connected to the third input of the memory block, the fifth output of the program mm-time block is connected to the combined second inputs of the counter and address register, the first output of which is connected to the combined second inputs of the first and fourth keys, the second output — to the fourth Evod of the memory block, the first and second outputs of which are connected respectively to the first and second inputs of the block code comparison, the output of the code comparison unit is connected to the second input of the third key, the output of which is connected to the third input of the address register, the third output of the memory block to the second input of the second key, the output of the block is and a second vhodol program-timing unit.

The drawing shows a block diagram of an adaptive telemetry device. The device contains a block 1 for calculating generalized coordinates, a register of 2 addresses, a block of 3 memory, keys 4-7, a counter 8, a program-time block 9, a number formatter, an adder 1, an equation block 12, a block 13 for comparing codes, an encoder 14 , bus 15 tolerance signal. The device operates with an off-phase condition. The coefficients of the orthogonal decomposition over the analysis interval from the output of block 1 are fed to the second input of the block. 3 memories and are recorded therein, starting from first to last. From the first output of the program-time block 9, one impulse arrives at the first input of the register 2 address; In register 2, the first Ectfes of the orthogonal expansion coefficient is written, and from the second output of block 9, two impulses arrive in counter 8, i.e. counter 8 records address number two. The binary value of the address at number two comes from the output of the counter 8 to the first input of the memory block 3, and the read coefficient at this address from the second output of the block 3 pautt enters the second input of the block 13 of the code comparison. At the output of the additional block 13, the signal is wired in the case when the value of the binary code received at its second input is greater than the value of the code received at its first input, otherwise there is no signal. We propose that (C2 are the orthogonal decomposition coefficients received on input one and two blocks 13, respectively, TOJ and the output of block 13 will be active, and the binary value of the second rez from counter 8 did not offset through 4 to register 2, m. E. The contents of the register will not change. In the future, the signal from the first output of block 9 will be absent until a certain moment. From the second output of block 9 to counter 8, one pulse will arrive and, thus, the contents of eb will increase by one, i.e. will become three The process of counting coefficients from bl Approximately 3 of the memory is repeated, i.e., the first usod of block 1 will receive a coefficient with the first address C, and the second input will receive a coefficient with address three, i.e. C. Let's assume now that C C, then at the output of the block 13, the signal is sent to the second input of the key 4, allowing to write the value of the third address in register 2. From the second output of block 9, one HTvfflyrtbc will go to the input of counter 3, its content will be equal to four, and the first and second the inputs of block 13 come in with coefficients C- and C, respectively. This process will continue until the contents of counter 8 become equal to the number of all coefficients to be processed. As soon as this is completed, from the fourth output of block 9 to the first inputs of the fifth, sixth and seventh keys will arrive the resolving potential. By this time, the address of the highest coefficient will be in register 2. This address, via the open key 5, goes to the third input of memory block 3, and the largest orthogonal factor of the third output of block 3 is decomposed. Through the public key 7 goes to the second input of the encoder 14, the first input of which will contain the number of this Coefficient for temporary binding. At the same time, this coefficient will go through the shaper 10 modulus of the number to the adder 11. Block 9 from the fifth output sets the register 2 and the counter 8 to zero. Reading the coefficient at the address ,. arrived at the third input of unit 3 pa-, m tn, occurs without regeneration, - i.e. at the address with the highest coefficient, zero is written. Further, from the first output of block 9 to the first input of register 2 one pulse will arrive, and from the second output of block 9 to the first input of counter 8 two pulses will arrive, i.e. The first and second addresses, and the processing process is completely repeated. This will continue until the accumulation of sufficient coefficients in adder 11, and the output of the comparison unit 12 has a potential that indicates that the processing is completed at this analysis interval, i.e. The required accuracy is reached, the additional 0 zeroes the register 2, the counter 8, and sends a signal from the third output to the second input of block 1, thereby allowing the recording of new coefficients of orthogonal decomposition into the memory block S, and then the processing is repeated. Thus, the proposed device is much simpler known and allows, at a negligible cost of equipment, of processing various dimensions of the vectors of the coefficients of the orthogonal decomposition and of various analysis intervals.

Claims (1)

ADAPTIVE TELEMETRIC DEVICE containing a generalized coordinate calculation unit, the input of which is connected to the input of the device, the keys, the output of the first key is connected to the first input of the encoder, the output of which is connected to the output of the device, the output of the second key is connected to the second input of the encoder and through (series-connected module shaper numbers and the adder - with the first input of the comparison unit, the second input of which is connected to the tolerance signal bus, which differs by e ~. With the fact that, in order to simplify the device, programmed oh block, address register, code comparison block, memory block and counter, the output of the counter is connected to the first inputs of the memory block, the third key and the program-time block, the first, second and third outputs of which are connected respectively to the first input of the address register, the first input the counter and the second input of the unit for calculating the bypassed coordinates, the output of which is connected to the second input of the memory unit, the fourth output of the program-time block is connected to the combined first inputs of the first, second and fourth keys, the output of the fourth the key is connected to the third input of the memory block, the fifth output of the program-time block is connected to the combined second inputs of the counter and the address register, the first output of which is connected to the combined second inputs of the first and fourth keys, the second output to the fourth input of the memory block, the first and second outputs of which are connected respectively to the first and second input of the code comparison unit, the output of the code comparison unit is connected to the second input of the third key, the output of which is connected to the third Input of the address register, the third output Lok memory - with a second input of the second switch, the output of comparator unit - a second input of the program-timing unit. ^ TSZ№ ^{, D} 'ng 1 1037316 ²