RU2202822C1 - Device for rational alternative choice - Google Patents

Abstract

FIELD: computer engineering. SUBSTANCE: device can be used for taking decision in developing computer-aided process control systems and large-scale systems including expert estimates. Mentioned device has parameters setting units, registers, comparator units, counter, AND gates, NOT gates, OR gates, switches, delay circuits, integrators, display unit, clock generator, and pulse distributor. EFFECT: enhanced speed and provision for expert estimates when taking decisions. 1cl, 3dwg

Description

 The invention relates to computer technology and can be used to make decisions based on expert judgment in the development of automated control systems for various processes and large systems.

 A device is known for selecting optimal solutions, comprising a comparison unit, a memory unit, a group of units for specifying tolerances, a group of units for setting tolerances, a group of units for memory indicators, three groups of adders, two groups of quadrants, three groups of division blocks, a group of multiplication blocks (USSR copyright certificate 1244672 Cl. G 06 G 7/122, 1986).

 The disadvantage of this device is the low speed.

 The closest analogue (prototype) is a device for selecting multi-criteria solutions, containing a group of parameter setting blocks, a group of vector component attribute setting blocks, a group of vector information convolution component calculation blocks, an extreme value selection block group, an adder group, a maximum code selection block, a group of elements delays (EZ), a single pulse generator, EZ, a group of feature outputs and a start input (USSR copyright certificate 1765834, class G 06 F 15/173, 1992).

The disadvantages of this device:
- the need to calculate the convolution component of vector information;
- the need to determine extreme values;
- the need to calculate the values of the generalized indicators of decision options;
- low performance as a consequence of the above disadvantages.

 The technical result of the claimed invention is to increase performance by eliminating these shortcomings and taking into account expert assessments in the decision-making process.

This can be done as follows. To make a decision about the type of the current situation (its assessment) when choosing a rational option, each i-th parameter X _i (i = 1, ..., n) characterizing the current situation is compared with the parameters of each of the j-th reference situation ( j = 1, ..., m), presented in the form of lower X _iн and upper X _iv limits of permissible parameter changes. If the parameter is inside the range of permissible values, then there is a "similarity" otherwise - "difference". After comparing the current situation with each of the reference (it is presented as a number), the number of similarities S _{j is} calculated. This information is filled in, and then the option is selected that corresponds to the maximum number of similarities S _max . Then, S _max is compared with S _add - the minimum acceptable number of "similarities", which is determined in advance based on expert estimates. If S _max ≥ S _add , then a conclusion is made about making a positive decision regarding the situation in question, that is, you can make a choice of a certain rational option that characterizes the current situation. Otherwise, that is, when S _max <S _add , the decision-making procedure is not feasible.

 The technical result is achieved by the fact that the device for choosing a rational option, containing a group of parameter setting blocks, an EZ group, an adder group and a first EZ, additionally contains the first and second groups of input registers, the first and second groups of comparison blocks, the input register, the group of AND elements, counter, element NOT, second EZ, first to sixth elements OR, first to fourth switches, first to sixth registers, first and second comparison units, display unit, clock generator and distributor pulses, the input of which is connected to the output of the clock generator, the first output of the pulse distributor - with the recording inputs of a group of parameter setting blocks, the second output - with the recording inputs of the first and second groups of input registers, the third output - with the recording input of the input register, the fourth output - the read inputs of the group of parameter setting blocks, the fifth output - with the read inputs of the first and second groups of input registers, the sixth output - with the first input of the first OR element, the seventh output - with the write input of the first register, eight , the ninth and tenth outputs, respectively, with the inputs of start, counting and reading the counter, the eleventh output, with the first input of the second OR element, the twelfth, thirteenth, and fourteenth outputs, with the recording inputs of the second, third, and fourth registers, respectively, the fifteenth output, with the first inputs third and fourth elements OR, sixteenth output - with recording inputs of the fifth and sixth registers, seventeenth output - with readings of the input register and sixth register, information inputs of the first and second groups of input registers, each of which consists of n elements, is the input of the device, the output of each element of the first group of input registers is connected to the first input of each of n elements of the first group of comparison blocks, and the output of each element of the second group of input registers is connected to the first input of each of n elements the second group of comparison blocks, the information inputs of the group of parameter setting blocks, consisting of n elements, are the inputs of the device, and the output of each of these elements is connected to the second inputs of the corresponding elements of the first and second groups of comparison blocks, the outputs of each of the elements of which are connected respectively to the first and second inputs of the group of AND elements, consisting of n elements, the information input of the input register is the input of the device, and the output is connected to the first input of the first comparison block, the output of which is connected to the reading input of the fifth register, and the second input to the output of the sixth register, the information input of which is connected to the output of the fifth OR element, the first and second inputs of which are connected to the first outputs, respectively of the first and second switches, the second outputs of which are connected respectively to the first and second inputs of the second comparison unit, the output of which is connected to the second input of the third OR element, to the control input of the second switch, to the first and second EZ, to the read input of the second register and to the input element NOT, the output of which is connected to the read input of the third register, with the second input of the fourth OR element and with the control input of the first switch, the information input of which is connected to the output of the fourth reg a country whose read input is connected to the output of the fourth OR element, and the information input is connected to the first output of the third switch, the second output of which is connected to the information input of the first register, and the control input is connected to the output of the first OR element, the second input of which is connected to the output of the second EZ , the information input of the second switch is connected to the output of the first register, the read input of which is connected to the output of the third element OR, the outputs of the first two elements of the group of elements AND are connected respectively to the first and the second inputs of the first adder of the adder group consisting of (n-1) elements, and the output of each subsequent element And, from the third to the n-th, to the input of the corresponding element of the EZ group consisting of (n-2) elements, the output each element of which is connected to the first input of the corresponding adder of the adder group, starting from the second, the second input of each of which is connected to the output of the previous adder, and the output of the last (n-1) -go adder is connected to the information input of the third switch, the counter output is connected to the information mu input of the fourth switch, the first and second outputs of which are connected to the information inputs of the second and third registers, respectively, and the control input is connected to the output of the second OR element, the second input of which is connected to the output of the first EZ, the outputs of the second and third registers are connected respectively to the first and second the inputs of the sixth OR element, the output of which is connected to the information input of the fifth register, the output of which is connected to the input of the display unit.

 In FIG. Figures 1 and 2 show a functional diagram of the device (to eliminate the cumbersome communication between the pulse distributor and the control inputs of the respective blocks, they are not shown completely, but are indicated by numbering the inputs and outputs); figure 3 shows the sequence diagram of the operation of the device for choosing a rational option (the ordinate axis indicates the numbers of the outputs of the pulse distributor, and the abscissa axis shows the number of ticks, and the duration of the addition operation is taken for one clock cycle).

 A device for choosing a rational option (figures 1 and 2) contains a group of 1 parameter setting blocks, consisting of n elements, the first 2 and second 3 groups of input registers, each of which consists of n elements, the first 4 and second 5 groups of comparison blocks, each of which consists of n elements, input register 6, a group of 7 elements AND, consisting of n elements, counter 8, element NOT 9, first 10 and second 11 EZ, first 12, second 13, third 14, fourth 15, fifth 16 and sixth 17 elements OR, first 18, second 19, third 20 and fourth 21 switches, first 22, second 2 3, third 24, fourth 25, fifth 26 and sixth 27 registers, a group of 28 EZ consisting of (n-2) elements, a group of 29 adders consisting of (n-1) elements, the first 30 and second 31 comparison blocks, block 32 indications, a 33 clock pulse generator and a 34 pulse distributor.

A device for choosing a rational option works as follows. The information inputs of each of the elements of group 1 of the parameter setting blocks (FIGS. 1, 2) send parameters X ₁ , X ₂ , ..., X _n characterizing the current situation. In this case, the control signal to the recording inputs of this group is supplied from the first output of the distributor 34 pulses, the pace of which is set by the generator 33 clock pulses. In the data inputs of each of the elements of the first 2 and second 3 are sent to input register groups respectively lower values X _{1N, 2N} X, ..., X _nH and upper X _LB, X _2c, ..., X _nin limits of acceptable change parameters. These limits characterize the first reference situation. The control signal to the recording inputs of these groups is supplied from the second output of the pulse distributor 34. The information input of the input register 6 is sent the minimum allowable number of "similarities" S _add . A control signal to the recording input of this register is supplied from the third output of the pulse distributor 34.

The signal from the fourth output of the distributor of 34 pulses to the reading inputs of group 1 of the parameter setting blocks from the outputs of these blocks values X ₁ , X ₂ , ..., X _{n are} sent to the second inputs of the first 4 and second 5 groups of comparison blocks. On a signal from the fifth output pulse distributor 34 to the inputs of the read first 2 and second 3 groups of input values of registers X _{1N, 2N} X, ..., X _nH fed to first inputs of the first group of four comparators and the values of x _LB, X _2B, ..., X _{nВ are} sent to the first inputs of the second group of 5 comparison blocks. Each comparison unit of group 4 is configured as follows: if X _i ≥X _iin , then the output of the corresponding comparison unit will be 1, and in the case of X _i <X _iin, the output will be 0. Each comparison unit of group 5 is configured as follows: if X _i ≤X _iB , then the output of the corresponding comparison unit will be 1, and in the case X _i > X _iB, the output will be 0. Thus, if the parameter characterizing the current situation is within acceptable limits, that is, X _iн ≤X _i ≤X _IB, the output of the corresponding AND element group 7 is 1, in all other cases from 0. the first signals d yx elements and group 7 received directly by the first adder group 29, and signals with each subsequent group of AND group 7 are supplied to adders 29 through 28 EG group for summing the accumulation. Therefore, the output of the last adder of group 29 will be the number of “similarities” of the current situation with the first reference, which is fed to the information input of the third switch 20. From the sixth output of the pulse distributor 34, a signal is supplied to the control input of the third switch 20 through the first element OR 12. situation, the value of the number of "similarities" from the second output of this switch is fed to the information input of the first register 22, to the recording input of which the control signal is sent from the seventh output of the distributor 34 pulses. The cyclogram of the operation of the device (figure 3) shows that the interval between the control signals from the fourth, fifth and sixth, seventh outputs of the pulse distributor 34 is (n-1) clock cycles. This is necessary for summation with the accumulation of n quantities. It is assumed that one cycle of summation lasts one cycle.

 The information inputs of each of the elements of the first 2 and second 3 groups of input registers (Figs. 1, 2) are sent the values of the lower and upper limits of the allowable parameter values, which characterize the second reference situation. A control signal to the recording inputs of these groups is supplied from the second output of the pulse distributor 34. According to the signal of the fifth output of the distributor of 34 pulses to the read inputs of the first 2 and second 3 groups of input registers, the values of the lower limits of permissible parameter changes are sent to the first inputs of the first group of 4 comparison blocks, and the values of the upper limits of permissible parameter changes are sent to the first inputs of the second group of 5 comparison blocks . In the future, using the blocks 7, 28 and 29, according to the already described order, the number of “similarities” of the current situation with the second reference is estimated. The value of this quantity is supplied to the information input of the third switch 20. Since the control signal is not supplied to this switch, the number of "similarities" is sent from its first output to the information input of the fourth register 25. In this case, the control signal for recording is sent from the fourteenth output of the pulse distributor 34 .

 According to the signals from the eighth and ninth outputs of the pulse distributor 34, respectively, to the start input and to the counter input of counter 8, this counter is included in the operation. According to the signal from the tenth output of the pulse distributor 34 to the reading input of the counter 8, a value equal to one, which corresponds to the number of the first reference situation, is fed to the information input of the fourth switch 21. Since the signal is sent to the control input of the block 21 from the eleventh output of the pulse distributor 34 through the second element OR 13, the number of the first reference situation is sent from the first output of the fourth switch 21 to the information input of the second register 23. A control signal for recording is supplied in this case from the twelfth output of the distributor 34 pulses.

 According to the signal from the ninth output of the pulse distributor 34, a counter value of two is formed in it, which corresponds to the number of the second reference situation, which is sent to the information input of the fourth switch 21. Since the signal to the control input of block 21 is not supplied, then the number of the second reference situation is sent from the second output of the fourth switch 21 to the information input of the third register 24. In this case, the control signal for recording is sent from the thirteenth output divisor 34 pulses.

 In the future, it is necessary to determine the option of a larger number of "similarities" and fix the corresponding reference situation number. To do this, according to the signal from the fifteenth output of the pulse distributor 34 supplied through the third 14 and fourth 15 OR elements to the read inputs of the first 22 and fourth 25 registers, respectively, from their outputs the values of “similarities” for the first and second variants of the reference situation are sent to the information inputs, respectively second 19 and first 18 switches. Since control signals are not supplied to these switches, the values of "similarities" are applied from their second outputs to the second and first inputs of the first comparison unit 30, respectively. This block is configured as follows. If the value received at the second input of the first comparison unit 30 is greater than or equal to the value received at the first input of this block, then its output will be 1. Otherwise, the output of block 30 will be 0.

 Due to this setting and the presence of the element NOT 9, the highest of the two “similarities” recorded in the first 22 or fourth 25 registers will be fed to the information input of the sixth register 27 through the fifth element of OR 16. The control signal for recording is sent to block 27, from the sixteenth output of the pulse distributor 34. In addition, due to the presence of the second EZ 11, the value of the number of “similarities” for comparison with the subsequent reference situation will go to the freed register, that is, to one of blocks 22 or 25.

 The above setting also allows you to supply through the sixth element OR 17 to the information input of the fifth register 26 the number of the number of the reference situation, which provides the greatest number of "similarities". The control signal is then sent to the recording input of block 26 from the sixteenth output of the pulse distributor 34. In addition, due to the presence of the first EZ 10, the number of the subsequent analyzed reference situation will be sent to the vacated register: in the second 23 or in the third 24.

Therefore, after enumerating all m reference situations, in the sixth register 27 there will be a value S _max - the maximum number of “similarities”, and in the fifth register the number of that reference situation that provides S _max will be recorded.

According to the signal from the seventeenth output of the pulse distributor 34 to the read inputs of the input register 6 and the sixth register 27 from their outputs, the values of S _add and S _max are supplied respectively to the first and second inputs of the second comparison unit 31. This block is configured as follows. If S _max ≥ S _extra , then its output will be 1. Otherwise, that is, with S _max <S _extra , the output of the second comparison unit 31 will be 0. Therefore, in the case of S _max ≥ S _extra, the fifth register read input 26, a signal will be sent from the output of the second comparison unit 31, and from the output of unit 26, the number of the most suitable situation number will be sent to the input of the display unit 32. When S _max <S, an _additional read signal will not be supplied to the fifth register 26 and the following information will be displayed on the display unit 32: “there is no option”. In this situation, you should enter other reference situations and repeat the operation of the device.

Thus, the described device significantly improves performance and takes into account expert assessments in the decision-making process. The expert evaluations reflect the heuristic experience of specialists in this field, which is especially important in the absence of formalization and canonization in this matter. Subjectivism is eliminated due to the fact that S _dop is estimated from the results of processing data from a survey of several experts.

 The industrial applicability of the invention is justified by the fact that it can be used in various fields (industries) in the process of choosing rational options.

Claims (1)

 A device for choosing a rational option, containing a group of parameter setting blocks, a group of delay elements (EZ), a group of adders and a first EZ, characterized in that it additionally contains the first and second groups of input registers, the first and second groups of comparison blocks, the input register, the group AND elements, counter, element NOT, second EZ, first through sixth elements OR, first through fourth switches, first through sixth registers, first and second comparison units, display unit, clock generator and distributes For pulses, the input of which is connected to the output of the clock generator, the first output of the pulse distributor is with the recording inputs of the group of parameter setting blocks, the second output is with the recording inputs of the first and second groups of input registers, the third output is with the recording input of the input register, the fourth output is with read inputs of a group of parameter setting blocks, the fifth output - with read inputs of the first and second groups of input registers, the sixth output - with the first input of the first OR element, the seventh output - with the write input of the first register, eight mine, the ninth and tenth outputs, respectively, with the inputs of start, counting and reading the counter, the eleventh output, with the first input of the second OR element, the twelfth, thirteenth and fourteenth outputs, with the recording inputs of the second, third, and fourth registers, respectively, the fifteenth output, with the first the inputs of the third and fourth elements OR, the sixteenth output - with the recording inputs of the fifth and sixth registers, the seventeenth output - with the read inputs of the input register and the sixth register, information inputs of the first and second groups of input registers, each of which consists of n elements, are the input of the device, the output of each element of the first group of input registers is connected to the first input of each of n elements of the first group of comparison blocks, and the output of each element of the second group of input registers is connected to the first input of each of n elements of the second group of comparison blocks, the information inputs of the group of parameter setting blocks, consisting of n elements, are the inputs of the device, and the output of each of these elements is connected to the second inputs of the corresponding elements of the first and second groups of comparison blocks, the outputs of each of the elements of which are connected respectively to the first and second inputs of the group of AND elements, consisting of n elements, the information input of the input register is the input of the device, and the output is connected to the first input of the first comparison block, the output of which is connected to the reading input of the fifth register, and the second input to the output of the sixth register, the information input of which is connected to the output of the fifth OR element, the first and second inputs of which are connected to the first outputs of respectively of the first and second switches, the second outputs of which are connected respectively to the first and second inputs of the second comparison unit, the output of which is connected to the second input of the third OR element, to the control input of the second switch, to the first and second EZ, to the read input of the second register and to the input element NOT, the output of which is connected to the read input of the third register, with the second input of the fourth OR element and with the control input of the first switch, the information input of which is connected to the output of the fourth reg tra, whose read input is connected to the output of the fourth OR element, and the information input is connected to the first output of the third switch, the second output of which is connected to the information input of the first register, and the control input is connected to the output of the first OR element, the second input of which is connected to the output of the second EZ , the information input of the second switch is connected to the output of the first register, the read input of which is connected to the output of the third element OR, the outputs of the first two elements of the group of elements AND are connected respectively to the first and the second inputs of the first adder of the adder group consisting of (n-1) elements, and the output of each subsequent element And from the third to the n-th is to the input of the corresponding element of the EZ group consisting of (n-2) elements, the output of each element which is connected to the first input of the corresponding adder of the adder group, starting from the second, the second input of each of which is connected to the output of the previous adder, and the output of the last (n-1) -th adder is connected to the information input of the third switch, the counter output is connected to the information the input of the fourth switch, the first and second outputs of which are connected to the information inputs of the second and third registers, respectively, and the control input is connected to the output of the second OR element, the second input of which is connected to the output of the first EZ, the outputs of the second and third registers are connected respectively to the first and second inputs the sixth OR element, the output of which is connected to the information input of the fifth register, the output of which is connected to the input of the display unit.

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