SU1746374A1 - Basic function consistent system generator - Google Patents

Abstract

The invention relates to automation and computing and can be used for spectral analysis of signals when they are decomposed into systems of functions. The purpose of the invention is to expand the functionality of the generator due to the formation of 2IVr-systems of basic functions consistent with an arbitrary waveform (M is the number of values accepted by the functions, N 2П is the dimension of the system of functions). The generator contains commutators 1-4, node 5 of the sign definition, counters 6 and 7, shift register 8, adder 9 modulo M / 2, generator 10 time intervals, tact selector 11

Description

output pulses, blocks 12 and 13 elements AND, shift register 14, groups 15-18 of the input of the system function, input 19 clock pulses, output 20 of the function, output 21 of the end of the function period, output 22 of the function number, blocks 32 and 33 of the OR elements.

Expansion of the functionality is achieved by the introduction of additional blocks: switches, clock selector, time interval generator, sign definition node, blocks of OR elements. 1 il.

The invention relates to automation and computing and can be used for spectral analysis of signals when they are decomposed into systems of functions.

The known generator contains two p-bit counters (N-2n is the dimension of the system of functions), n shift registers, n elements NOT, n blocks of elements AND, modulator M / 2, clock input, function set task input, function output , the output of the end of the period of the generated functions, the output of the number of the generated function in which the input of the first counter is connected to the clock input of the generator and the synchronization input and shift registers, the overflow output of the first counter is connected to the counting input of the second counter, to the control inputs of the record and n shift registers and to the output of the end of the period of the generated generator functions, the bit outputs of the second counter are connected to the output of the number of the generated generator function and to the control inputs of n blocks of elements I. an input I of the P-th group of the i-ro shift register (Е 1, M / 2 i 1, n, t-size of the group, determined by the number of bits in the binary representation of the number M / 2 - 1, M - even integer), is connected to the bit group of the system operation input of the Generator Functions, the first output is Ы / 2-th bit group of the 1st shift register through the 1st element is NOT connected to the first the input of the sequential input group of the 1st shift register, the outputs from the second to yyy 1 - and the i-ro digit register of the shift register are connected respectively to the inputs (2, gp + 1) of the serial input group of the 1st shift register, the outputs (1, m + 1) of the f-ro shift register group of the shift register are connected to the group of information inputs of the i-ro block of elements And, the outputs of the block of elements And connected to the inputs of the adder mod M / 2.

The disadvantage of this generator is a limited class of basic functions systems formed by it (a class 2M of basic functions systems is formed).

The purpose of the invention is to expand the functionality of the generator for

formation account + 1 N systems of basis functions matched with an arbitrary waveform (M is the number of values accepted by the functions, N 2P is the difference

systems of functions).

The goal is achieved by the fact that the generator of systems of basic functions, containing two counters, two shift registers, (n - 1) blocks of elements AND (2n N is the dimension of the system of functions), modulo M / 2 (M is the number of function values), the counting input of the first counter is the generator input, the overflow output of the first counter is the output of the end of the generator function period and connected to the counting input of the second counter, the output of which is the output of the generator function number, entered (n + 1) switches, selector switch the output pulses, the time slot generator, the logical computing unit and the two blocks of OR elements, the N / 2 information inputs of each switch are the corresponding group of inputs of the generator function system, the information output of the first counter is connected to the clock selector and time interval generator. ; th address input (to +

1) -th switch, (i 1, k, k 1, n-1) is connected to the i-th bit information output of the first counter, j-th (j kn-l) address address of the k-ro switch is connected to (+ 1) th bit output of the second counter, k-th

the address input of the (n + 1) switch is connected to the (k + 1) th output of the second counter, the output Ho (C 1, n) of the switch is connected to the 1st input of the first block of elements OR, the information output of the first block of elements OR is connected to the input of the first operand of the adder modulo M / 2, the sign output of the first block of elements OR is connected to the first information input of the logical node for computing the sign, the output of which is connected to the sign input of the first operand of the adder modulo M / 2, the output of the adder modulo M / 2 is connected to serial information Discount pen input register

shift, the first bit output of the first

the shift register is the output of the generator function, the 2k-n bit output of the first shift register is connected to the information input of the K-th block of AND elements, the control input and output of the k-ro block of AND blocks are connected respectively to (the + 1) -th output block forming time intervals and the k-th input of the second block of elements OR, the output of the (n + 1) -th switch is connected to (n + 1) -th input of the second block of OR elements, the output of which is connected to the input of the second operand modulo M / 2, the output of the second counter is connected to the parallel information the input of the second shift register, the sequential information input of which is connected to the generator zero source, the nth bit output of the second shift register is connected to the second information input of the sign computing logic, the overflow output of the first counter, the read input of the (n + 1) -th switch and the inhibit input of the logical node for calculating the character; the output of the clock selector is connected to the shift input of the second shift register, The Cth output of the time interval generator is connected to the read input of the t-ro switch.

The drawing shows the functional diagram of the generator (N 8).

The generator contains switches 1-4, logical computational node 5, counters 6 and 7. shift register 8, adder 9 modulo M / 2, shaper 10 time intervals, clock selector 11, blocks 12 and 13 of AND elements, shift register 14 , groups 15-18 of the inputs of the function set of the system, input of 19 clock pulses, output 20 of the function, output 21 of the end of the function period, output 22 of the function number, blocks 32 and 33 of the elements OR.

The generator forms a class of 2M P + 1 systems of discrete basis functions that are matched with an arbitrary signal that takes M values.

The generator implements a method of forming systems of basis functions through given discrete transformation matrix G (2n) using an iterative relation:

), g -VAlu -1) 4 (), -3 ((

TP-K

) P-1

where g (2) i, g (2) 2 are orthogonal matrices of dimension, A () -. vector size n-1

2 of the elements W .x is the operation of the elementwise product of the vectors of the matrix g () by the vector A (). According to (1), the matrix G (4) is defined as follows:

(41

D / YOO D | yO |

ktyAOo

1 J

, &

..four"

w I0 w wil0 -WA |

11 V VI

C f °° Y °

where we

In M

M 2 - the number of values

taken by the function & -rm-A on the interval (0,2), АЈ0, М / 2 - 1, К is an arbitrary integer. The product of the degrees of W in (1) and the formation of the values of the basis functions in the generator is performed according to the rule:

WAlxWA2 (Si © S2) 0pxW (V

where Si and S2 are the signs of the powers of W W

about

I0, if the sign of the degree W is positive, 1, if the sign of the degree W is negative.

p is the transfer formed when performing the operation of adding the exponents in (2):

 Oh, if the selection of the whole M / 2 occurred an even number of times,

1, if the selection of the integer M / 2 occurred an odd number of times.

By selecting the values of the elements W, forming the matrices d (2) and the vector factors A, any function of system (1) can be matched with an arbitrary signal, which means that this signal will be a eigenfunction of the system of basic functions thus constructed. The total number of basis functions formed in accordance with (1) is +.

The generator works as follows.

The elements of the generators matrix d (2) and vector factors A feed the first elements of each first row of matrices d (2), respectively, to a group of 18 inputs of the task of the system of functions, the second elements of each first row of matrices d (2) respectively to a group of 15 inputs of the task of the FUNCTION system , elements WA W Ао1П), W l W 11 factors of the second iteration, respectively, per group of 16 inputs of the task of the system of functions, element: W,

WA 01Й w A 02 () (W L 03 (2) multipliers

the third iteration, respectively, on a group of 17 inputs of the set of functions of the system; Counter 6 counts the incoming pulses arriving at its input and forms the period. Functions Г- NX t where t is the period of the clock impulses. The overflow pulses of the counter 6 scramble the generator according to the following algorithm, the leading edge of the overflow pulse adds +1 to the counter 7, reads the switch 4 for the time of the interlacing pulse, accepts information in the register 14 and disables the logical node 5 to calculate of basic functions in accordance with (2) forming a sum-9 modulo M / 2, the first input of which can receive the beginnings of the first elements of the forming matrices d (2) from the output of the switch) 4 and the values of the functions formed In the previous iterations, from the outputs of blocks 12 and 13 of the AND elements, through block 33 of the elements OR the second input of the adder 9 modulo M / 2 receives the value of the second elements of the matrices ((2) and the elements of the vector users And from the outputs of the switches 1-3 cherr block of 32 elements OR Prihol, the phoong of the pulse of hakp pulses form the values of the basic FUNCTIONS recorded in the shift register 8 and enter into the PENDOR 20 of the generator function.

In contrast to the prototype of the proposition, the torus forms 2M + consistent systems of basic functions, which is its advantage

Formula of invention

The generator of consistent systems of basis functions containing two counters, two shift shifts, l - 1 blocks of elements I (2P - N is the dimension of the system of functions), modulo M / 2 (M is the number of Function values), and the counting input of the first - The etchua is the clock input of the generator, the overflow output of the first counter is the output of the end of the period of the generator functions and is connected to the counting input of the second counter, the output of which is the output of the number of the generator function that, in order to expand its functionality generator due to the formation of 2 MP + 1 systems of basic functions, matched with an arbitrary waveform, it contains n 1 switches, clock selector, time generator, logical calculation node and two OR elements, and N / 2 information inputs of each switch are the corresponding group of inputs of the set of functions of the generator, the information output of the first counter is connected to the inputs of the clock selector and the time slot generator, 1st ad 2 spring input ( To 1) go switch (i - 1, k, k 1, p-1) is connected to the i-th bit information output of the first counter, I-and (ik p-1) address input of the K-th switch is connected to (i +1) -th bit output of the second counter, the k-th address input of the (n + 1) -th switch is connected to (k (- 1} m bit output of the second counter, output of the E-th (- 1, n) switch connected to the -th input of the first elemento block OR, the information output of the first tree OR elements connected to the input of the first operand of the modulo M / 2 adder, the sign output of the first block of OR elements connected to the first information The input of the local unit for calculating the sign, the output of which is connected to the sign input of the first operand of the adder ps MODULE M / 2, the output of the adder module M / 2 is connected to the serial information of the ion input of the first shift register, the first bit dm1 and the output of the first register shifts is the output of the generator function, the 2k-th bit output of the first shift register is connected to the information input of the k-ro block of the AND blocks, the control input and output of the k-ro block of the AND blocks are connected respectively to the I k t-1) -th output block formation temporal intervals and the k-th input of the second power unit unit OR of (n + 1) -th switch is connected to (n + input of the second block of OR elements, the output of which is connected to the input of the fire operand of the modulo M / 2 adder, the output of the second counter is connected the parallel information input is a twisted shift register, the serial information input of which is connected to the generator zero level source, and the n-th bit output of the second shift register is connected to the second information input of the logical node calculation of the overflow output of the first a counter connected to the write clock input of the second shift register input reading (n t 1j-ro switch and the input zepre. the logical node for computing the sign, the output of the clock selector pulse-in is connected to the shift synchronization input of the second register 1717637410

a shift stratum, (- and the output of the formulas is connected to the read input of the t-th time slot switch.

Claims (1)

Claim A generator of coordinated systems of basis functions containing two counters, two shift registers, n - 1 blocks of AND elements (2 ⁿ = N is the dimension of the system of functions), an adder modulo M / 2 (M is the number of values of the function), and the counting input of the first counter is the clock input of the generator, the overflow output of the first counter is the output of the end of the generator function period and is connected to the counting input of the second counter, the output of which is the output of the generator function number, characterized in that, in order to expand the functionality generator due to the formation of 2M ^{n + 1} systems of basis functions consistent with an arbitrary waveform, it contains n + 1 switches, a clock selector, a time interval shaper, a sign calculation logic unit and two blocks of OR elements, with N / 2 information inputs of each the switches are the corresponding group of inputs of the job of the generator function system, the information output of the first counter is connected to the inputs of the clock selector and the shaper of time intervals, the ith address input (K + 1) of the switch (ί = 1, k; k = 1, n-1) is connected to the l-th bit information output of the first counter. The I-th (i = k, p-1) address input of the K-th switch is connected to the (i +1) -th bit output of the second counter, the k-th address input of the (p + 1) -th switch is connected to (k + 1) by the bit output of the second counter, the output of the t-th (ί = 1, p) switch is connected to the! -Th input of the first block of OR elements, the information output of the first block of OR elements is connected to the input of the first operand of the adder modulo M / 2, the sign output of the first block of OR elements is connected to the first information input of the sign calculation logical node, the output of which is connected to the sign input of the first about the operand of the adder ps module M / 2, the output of the adder modulo M / 2 is connected to the serial information input of the first shift register, the first bit output of the first, shift register is the output of the generator function, the 2nd ^k- bit output of the first shift register is connected to the information input k-ro of the block of AND elements, the control input and output of the k-ro of the block of AND elements is connected respectively to the (k + 1) -th output of the block for forming time intervals and km to the input of the second block of OR elements, the output of the (n + 1) -th switch is connected with (n + 1) th input m of the second block of OR elements, the output of which is connected to the input of the second operand of the adder modulo M / 2, the output of the second counter is connected to the parallel information input of the second shift register, the serial information input of which is connected to the source of the generator zero level, and the nth bit output of the second the shift register is connected to the second information input of the logical unit for calculating the sign, the overflow output of the first counter is connected to the synchronization input of the second shift register record, the read input (n + 1) - g switch, and the input zapre'1 logical node calculation mark clock selector output coupled to an input of the second synchronization shift regi9 Stra shear, t-th output is coupled to the formation fishing reading input (rovatelya -th commutation time intervals torus.