SU1086436A1 - Device for simulating queueing systems - Google Patents

Abstract

A DEVICE FOR SIMULATING SYSTEMS OF MASS SERVICE, containing a generator of random sequences of pulses, the output of which is connected to the input of the generator of counting pulses, to the first input of the first element I and to the input of the generator of the wok, the output of which is connected to the input of the total number count for the wok, with the first inputs of the first and the second element And, the output of the second element And is connected to the input of the generator of random service time intervals of the quotation, the output of which through the first differentiating chain is n with the first inversion input of the third element I and with the inversion input of the fourth element I, the output of which is connected to the input of the counter of the number served for the wok, the output of the third element I connected to the input of the counter of the number of incompletely served for the wok random time intervals of work. The output of which is connected to the second input of the second element And, the input of the fourth element And, the second inverse input of the third element And through the second differentiating center kidney connected to the first inverted input of the fifth AND gate, whose output is connected to, edinichnm input of the first flip-flop and to the input of the random intervals recovery time, the output of which is connected to first input of second OR input and third differentsiruyuscheytse; points whose output is connected to the first inverse input of the first element OR and the zero input of the first trigger, the output of which is connected to the first input of the sixth AND element, the output of which is connected to the input (L of the recovery time counter, the output of the second OR element The output of which is connected to the counter input of the number of unattended quotations, the output of the generator of counting pulses is connected to the second input of the sixth element AND, to the first input of the seventh element AND, you: move the fourth differential The rentirating center of the kidney is connected to the zero input CO of the second second trigger, the output of which is connected to the second input of the seventh element AND, the output of the counting pulse generator is connected to the first input of the eighth element AND, the output of which is connected to the input of the counter of the system operation, about l and h ato Now that, in order to improve the accuracy of modeling and expanding the functionality by taking into account the technical obeluzhivaniya mode on a calendar basis.

Description

it contains the ninth and tenth elements AND, the third and fourth elements OR, the interval generator for its weekly maintenance, the generator of time intervals for monthly technical obeying, the generator of time intervals for semi-annual maintenance, the counter for maintenance periods, the calendar week counter, the calendar months counter the calendar half-year counter, and the counting pulses generator output is connected to the calendar weeks counter input, the output of which is n with the calendar months counter input and the input of the ninth element AND, the output of which is connected to the first input of the fourth element OR, the output of which is connected to the single input of the second signal and the input of the generator of random time intervals, the output of which is connected to the second input of the eighth element And, the output of the calendar calendar counter is connected to the input of the calendar calendar half year, with the inverse input of the ninth And element, and with the input of the ten And element, whose output is connected to the second input of the fourth element the OR input and the input of the generator of intervals of monthly maintenance, the output of which is connected to the first input of the third OR element, the output of which is connected to the input of the fourth differentiating chain, the second inverse input of the fifth AND element, and the second input of the second element AN, the calendar half-year counter is connected with the inverse of the input of the tenth element AND, the third input of the fourth element OR, and

, the input of the generator of time intervals of semi-annual maintenance, the output of which is connected to the third input of the third element OR, the output of the ninth element I is connected to the input of the interval generator, the time of the weekly maintenance service, the output of the fourth differential (the chain is connected to the second inverse of the first element ShShch , the output of the seventh element And is connected to the input of the maintenance time counter.

The invention relates to computing and can be used for simulating queuing systems (QS).

A device for simulating queuing systems is known, comprising a first random pulse generator, the output of which is connected to the input of the first counter and the first input of the first OR element, the output of which is connected to the first input of the BAN element, the output of which is connected to the summing input of the first reversible counter and with the input of the multichannel block of random time delays, the code of which is connected to the first input of the second SHS element, the output of which is connected to the subtractive input of the first reversible o-counter whose output through the threshold element is connected to the first input of the third element OR, the second input of which is connected to the input of the second generator of a random stream of pulses and connected to the first input of the generator and pulses, the second input of which through the first element I is connected to the discharge outputs of the first reversible counter, and the pulse generator code is connected to the second

the input of the second element OR, the output of the third element OR is connected to the second input of the BAN element and the first input of the second element AND, Vt), whose input is combined with

the entrance of the first counter, the second

counter, second reversible counter, group of elements AND, adder, fourth, fifth, sixth elements OR, third element AND, driver

pulse series, delay element, switch and synchronization unit, two outputs of which are connected respectively to the control inputs of the group of elements And and (adder, whose inputs are connected to the outputs of the group of elements And, respectively, whose inputs are connected to the discharge outputs of the second reversible counter and through the fourth the OR element is connected to the first input of the third element AND, the second input of which is connected to the first output of the switch, the second output of which is connected to the input of the second counter, the output of the third element It is connected via the delay element to the second input of the first element AND directly to the subtractive input of the second reversible counter, the summing input of which is connected to the output of the first OR element, whose inputs are connected to the output of the second element And to Tpse the output of the switch, respectively, the inputs of which are connected respectively to the outputs of the pulse generator and to the output of the sixth OR element, whose inputs are connected respectively to the first input of the second OR element and through the pulse shaper with the input of the pulse generator til The disadvantage of this device is the relatively low simulation accuracy due to the lack of the possibility of simulating the maintenance mode according to the calendar principle characteristic of many real-life service systems. The closest to the technical essence to the proposed is a device for simulating queuing systems random streams of pulses, the code of which is connected to the first input of the element OR, generator, quo emnye pulses, the total amount of the meter count, the count of the number of incompletely served meter, the first element AND, the output of which is connected to the subtractive input of the reversible counter, the second element AND, the output of which is connected to the input of the counter of the number of served values, the second element OR, the output of which is connected to the first input of the third element AND, in addition, the device includes five elements AND, a generator of random operation time intervals, a generator of random service intervals of the order, a random generator recovery time intervals, random maintenance time intervals generator, four differentiating chains, triggers, shift register, recovery time counter, system operation time counter, maintenance time counter, non-servicing count counter, the generator output of random pulse flows connected to the generator input wake, the output of which is connected to the input of the counter of the total amount of the wake, with the first input of the fourth element I and the third input of the third, e The element I, the output of which is connected to the input of the counter of the unserved supply quantity, the output of the fourth element I is connected to the input of the generator of random intervals of service time of the application, the code 1 through the first differentiating chain is connected to the inverse input of the second element I and to the first inverse input n of the AND element, the output of which is connected to the input of the counter of the number of incompletely served charges, the output of the first element OR is connected to the single input of the first trigger and the input of the generator operating time intervals, the output of which is connected to the second inputs of the second and fourth And elements, with the second inverse of the fifth And element and with the input of the second differentiating chain, the output of which is connected to the first inverse of the sixth And element, the output of which is connected to the single input of the second and zero input of the first: triggers and input of the generator of random intervals of recovery time, the output of which is connected to the first input of the second OR element and through the third differentiating chain is connected to the first 4 inverse input of the first element OR with zero. the input of the second trigger, the output of which is connected to the first input of the seventh element I, the output of which is connected to the input of the recovery time counter; the output of the first trigger is connected to the first input of the first element AND whose output is connected to the input of the system time counter, the output of the reversible counter is connected to the stop input generator of random time intervals of operation, a single input of the third trigger and to the input of a generator of random intervals of time maintenance, the output of which is connected to the second m inverse input of the sixth element AND, with the second input of the second element OR and the input of the fourth differentiating chain, the code of which is connected to the zero input of the third trigger, to the second inverse input of the first OR element and through the shift register is connected to the summing input of the reversible counter, the output of the third the trigger is connected to, the first input of the eighth element I, the output of which is connected to the input of the maintenance time counter, the output of the generator of random streams of pulses from one to the input of the counting generator mpulsov whose output is connected to second inputs of the first, seventh and eighth elements and t2. The disadvantage of the device is that this device does not provide for the technical maintenance mode according to the calendar principle and the modeling accuracy is insufficient. The maintenance mode according to calendar principle is characteristic of many real-life service systems. Such systems have, as a rule, the following cycle of functioning: the system is in the operation mode, during which it serves to enter the application system. In this mode, a failure may occur, after which the system immediately goes into recovery mode, after which it returns to the operation mode. Periodically, according to the calendar schedule, it enters the maintenance mode (that) according to the calendar principle, after the maintenance is completed, the system switches to the operating mode. A calendar-day gift is that maintenance is assigned and is held after a certain calendar period (week, month, quarter, half-year, etc.), regardless of the intensity of use of the QS and its operating time. The purpose of the invention is to improve the accuracy and enhance the functionality by taking into account the maintenance mode on a calendar basis. This goal is achieved in that a device for simulating queuing systems, comprising a generator of random sequences of pulses, the output of which is connected to the input of the generator of counting pulses, to the first input of the first OR element, and to the input of the generator, the output of which is connected to the counter of the total number for the wok, with the first inputs of the first and second elements And, the output of the second element And is connected to the input of the generator of random intervals of time for servicing the order, the output of which through the first the differentiating chain is connected to the first inverted input of the third element I and to the inverted input of the fourth element I, the output of which is connected to the input of the counter of the number of served stations, the output of the third element I is connected to the input of the counter of the number of incompletely served applications, the output of the first element OR is connected to the input start a random time interval generator, the output of which is connected to the second input of the second element And, the input of the fourth element And, the second inverse of the third element And and black From the second differentiating chain is connected to fiepioMy the inverted fy is the input of the fifth element I, the output of which is connected to the single input of the first trigger and the input of the generator of random recovery time intervals, the output of which is connected to the first input of the second OR element and the input of the third differentiating chain whose output is connected with the first inverse input of the first element OR and the zero input of the first trigger, the code of which is connected to the first input of the sixth element AND, the output of which is connected to the input of the time counter reset The output of the second element OR is connected to the second input of the first element AND, the output of which is connected to the counter input of the number of unserved servants, the output of the counting pulse generator is connected to the second input of the sixth element AND, to the first input of the seventh element AND, the fourth differential chain is connected to the zero input of the second flip-flop, the output of which is connected to the second input of the seventh element I, the output of the counting pulse generator is connected to the first input of the eighth element And, the output of the second is connected to the input the timer of the system, the ninth and tenth elements AND, the third and fourth elements OR, the generator of weekly maintenance intervals, the generator of intervals for monthly technical maintenance, the generator of semi-annual maintenance intervals, the maintenance counter, were introduced, a calendar calendar allotment counter, a calendar month counter, and a counter of calendaring half-years, with the output of the generator of counting pulses connected to the input of the calendar counter Del, the output of which is connected to the input of the calendar calendar counter and the input of the ninth element I, the output of which is connected to the first input of the fourth element SH, the output of which is connected to the single input of the second trigger and the input of the stop of the generator of random operation time intervals, the output of which is connected to the second input of the eighth element And, the output of the calendar months counter is connected to the input of the calendar half-year counter, with the inverse of the input of the ninth And element and to the input of the ten And element, whose output is connected to the second to the input of the fourth OR element and to the input of the generator of intervals of monthly maintenance, the output of which is connected to the first input of the third OR element, the output of which is connected to the input of the fourth differentiating chain, the second inverse of the fifth AND element, and the second input of the second OR element, the calendar half-year counter output is connected to the inverse input of the tenth AND element, the third input of the fourth OR element, and the input of the time interval generator for semi-annual maintenance The output of which is connected to the third input of the third element OR, the output of the ninth element I is connected to the input of the generator of weekly maintenance intervals, the output of the fourth differentiating chain is connected to the second inverse input of the first element SH, the output of the seventh element I is connected to the input of the maintenance time counter . The drawing shows a diagram of an apparatus for simulating queuing systems. The device contains a generator of 1 random pulse sequences, a generator of 2 applications, a jreHerator of 3 counting pulses, ele; ment OR 4, random generator 5, operation time intervals, l element AND 6, generator 7 random service intervals of the order, differentiating chain 8, element AND 9, counter 10, the number of serviced requests, differentiating chain 11, element And 12, generator 13 random recovery time intervals, trigger, 14, element I 15, recovery time counter 16, differentiating chain 17, counter 18 calendar weeks, counter 19 calendar months, counter calendar half-year 20, elements AND 21 and 22, element OR 23, generator 24 int Weekly maintenance time intervals, 25 monthly maintenance interval generator, 25 semiannual maintenance interval generator 26, element OR 27, differentiating chain 28, trigger 29, element 30, counter 31 of maintenance time, element III 32, element I 33, the counter 34 is the number of unattended quotes, the counter 35 is the total quantity of the wok, the element I 36, the counter 37 the number of incomplete serviced requisition, the element I 38, the counter 39 of the operating time of the system. The device simulates the operation of the QS operating the following modes of operation: operation, restoration and maintenance according to the calendar principle. Service for the wok occurs only when the system is in operation. The end of the work mode corresponds to the occurrence of failure, and the system immediately goes into the recovery mode. 1 after the end of which - again in the operating mode. After the established calendar dates (week, month, half-year), the system is transferred to the corresponding mode of cadendary maintenance (weekly, monthly, semi-annual), after which it goes into operation. Claims lost during the restoration of the technical service are lost, failures, which, during the service of the application, lead to a failure of the service of the application. The device works as follows. The generator produces a pulse that starts up the generator 2 for the generator 3, counting pulses, and also through the element OR 4 the generator 5 random intervals of operation time. At the output of the generator 5, a random time interval is formed, corresponding to a long non-failure mode of operation. Applications from generator 2 output through element 6 start generator 7 of random time intervals, which forms the time interval for servicing the application. At the end of this interval, the impulse from the output of the differentiating chain 8 through the element I 9, in the presence of voltage at the output of the generator 5, is fed to the counter 1 served by quotation. At the end of the time interval of operation, a pulse, imitating a failure, from the output of differentiating chain 1 through the element 12 starts the generator 13 random time intervals. At the output of the generator 13, a time interval is formed corresponding to the recovery mode. This also arrives at the single input trigger 14 and overturns it, after which the voltage from the output of the trigger 14 enters the input of the element AND 1 The second input of the element And 15 receives the counting pulses from the generator 3, which pass to the input of the counter 16, which reads Restoration and Restoration Systems At the end of the recovery time intervals, the pulse from the output of the differentiating chain 17 through the element, OR 4, starts the generator 5 random time intervals, again 610 putting the system into operation mode. The same impulse arrives at the zero input of the trigger 14, after which the counting pulses are not fed to the counter 16. The pulses from the generator 3 of the counting pulses continuously arrive at the input of the counter for 18 weeks, at the output of which after each calendar week a pulse appears. These pulses arrive at a 19-month counter, at the output of which, at the end of each calendar month, an impulse appears. These pulses arrive at the counter of 20 calendar half-years, at the output of which pulses appear at the end of each half-year. The pulses from the output of the meter 18 pass through the element I 21 only in the absence of the second inverse input of the element 21 and the pulse from the output of the counter 19 (i.e. three times per month), in turn the pulses from the output of the counter 19 pass t through the element AND 22 in the absence of the pulse at the second inverse input of the element 22 and the output of the counter 20 (i.e., five times in half a year). The impulse from the output of the element 21 starts the generator 24 time intervals of weekly maintenance, the output of which forms the time interval corresponding to the weekly maintenance, and simultaneously passes through the element OR 23 and the generator input 5 enters, and the time interval ends. The system does not go into recovery mode, since the voltage from the output of the generator 24 through the I1Sh 27 element is applied to the I1 upstream input of the And 12 element and Forbids the passage of a pulse to the generator 13. The impulse from the output of the element OR 23 enters the trigger 29 and Tips it , after which the voltage from the output of the trigger 29 is fed to the input of the element And 30. The second input of the element And 30 receives counting pulses from the generator 3, which pass to the input of the maintenance counter 31. At the end of the weekly maintenance time interval, a pulse from the output of the differentiating chain 28 through the element OR 4 starts the generator 5 random time intervals, again switching to the operation mode.

The same pulse arrives at zero, the trigger input 2.9, after which the counting pulses do not arrive at the counter 31

The pulses from the output of the element And 22 and the counter 20 calendar half-years are passed on; The system is similar to the impulse from the output of element I 21 with weekly maintenance, with the only difference that they, respectively, start the generator 25 intervals of monthly maintenance and the generator 26 of intervals of semi-annual maintenance, switch the system into maintenance mode for a period of monthly and semi-annual maintenance, respectively.

In the recovery and maintenance modes, the voltage from the outputs of the generator 13 and the element OR 27, respectively, flows through the element OR 32 to the input of the element AND 33. At the second input of the element I Sv, they are received from the generator 2 and go to counter 34, which calculate) the total number of unclaimed charges. Counter 35 counts the total number of applications entering the system, counter 37 is the number of incompletely serviced applications that pass into it through AND 36 in the case when the operation time interval ends before the application is served. If there is a voltage at the first input of the element And 38, coming from the generator 5, the countable

pulses from generator 3 are passed through element 38 to the time counter of the operation of the system.

According to the meter readings, it is possible to evaluate various probabilistic characteristics of the QS, including the probability of servicing the quotes, disruptions and incomplete servicing of the quorum for a certain time interval, as well as com-hop reliability indicators, including availability, simple factor, and other indicators, characterizing the process of servicing the stock and functioning of the SHO.

/

The proposed device in comparison with limestone possesses wider functional capabilities due to simulation of recovery modes, maintenance according to the calendar principle, operation and failures during operation, the parameters of which can vary according to different distribution distributions, and also increases the accuracy of modeling due to a high degree of compliance. modeled process of the actual process of functioning of the QS.

The device allows to simulate the QS taking into account the dynamics and modes of operation of the specific laws of the distribution of time parameters, characterizing the process of functioning of the servicing device and servicing of the quotations in the QS.

Claims (1)

DEVICE FOR MODELING MASS SERVICE SYSTEMS, containing a random pulse train generator, the output of which is connected to the input of the counting pulse generator, to the first input of the first element And and to the input of the request generator, the output of which is connected to the input of the total number of applications counter, with the first inputs of the first and second elements And, the output of the second element And is connected to the input of the generator of random intervals for servicing applications, the output of which is connected through the first differentiating chain to the first the inverse input of the third AND element and with the inverse input of the fourth AND element, the output of which is connected to the input of the counter of the number of serviced requests, the output of the third AND element is connected to the input of the counter of the number of incompletely served requests, the output of the first OR element is connected to the start input of the random time generator the output of which is connected to the second input of the second element And, the input of the fourth element And, the second inverse input of the third element And and through the second differentiating circuit is connected to the first inverse input of the fifth AND element, the output of which is connected to the single input of the first trigger and with the input of the random recovery time interval generator, the output of which is connected to the first input of the second OR element and the input of the third differentiating chain, the output of which is connected to the first inverse input of the first element OR and the zero input of the first trigger, the output of which is connected to the first input of the sixth AND element, whose Q output is connected to the input of the recovery time counter, the output of the second OR element under This is the second: the input of the first element And, the output of which is connected to the input of the counter of the number of non-served orders, the output of the counting pulse generator is connected to the second input of the sixth element And, to the first input of the seventh element And, the output of the fourth differentiating circuit is connected to the zero input of the second trigger, the output which is connected to the second input of the seventh element And, the output of the counting pulse generator is connected to the first input of the eighth element And, the output of which is connected to the input of the slumber counter of the system, distinguishing it consists in that, with the aim of increasing the accuracy of modeling and expanding functional capabilities by taking into account the technical maintenance mode * according to the calendar principle,, 1086436 it contains the ninth and tenth AND elements, the third and fourth OR elements, and the weekly maintenance interval generator , monthly maintenance time interval generator, six-month maintenance interval generator, maintenance time counter, calendar week counter, count a calendar month counter and a calendar half-year counter, the counter pulse generator output being connected to the calendar week counter input, the output of which is connected to the calendar month counter input and the ninth AND input, the output of which is connected to the first input of the fourth OR element, the output of which is connected to a single input the second trigger and with the stop input of the generator of random operating time intervals, the output of which is connected to the second input of the eighth element And, the output of the calendar month counter is connected with the input of the calendar half-year counter, with the inverse input of the ninth element And and the input of the tenth element And, the output of which is connected to the second input of the fourth OR element and to the input of the monthly maintenance interval generator, the output of which is connected to the first input of the third OR element, output which is connected to the input of the fourth differentiating chain, the second, * inverse input of the fifth AND element and the second input of the second OR element, the output of the calendar half-year counter is connected to the inverse input the ninth AND element, the third input of the fourth OR element, and the input of the half-year maintenance interval generator, the output of which is connected to the third input of the third OR element, the output of the ninth AND element is connected to the input of the interval generator for time; · nor weekly maintenance, the output of the fourth differentiating the chain is connected to the second inverse input of the first element OR, the output of the seventh element And is connected to the input of the maintenance time counter.