RU2207628C1 - Device for simulating in-service functioning processes of ram wing machines - Google Patents

Abstract

FIELD: simulating ram wing machine operation including dynamics and specific features of their application. SUBSTANCE: device that functions to simulate processes occurring in operating ram wing machines has random number generator units, time interval shapers, AND and OR gates, instruction generators, and decoders designed to identify condition of simulation processes according to respective operating conditions of device. EFFECT: enlarged functional capabilities. 1 cl, 1 dwg

Description

 The invention relates to computer technology and can be used to simulate the functioning of ekranoplanes in various operating conditions.

 A device for modeling queuing systems (QS), containing generators of random sequences of pulses, counters, reversible counters, a multi-channel block of random time delays, elements AND, elements OR, synchronization block [1].

 This device can also be used to simulate individual processes of the operation of ekranoplans during operation, namely the process of movement (flight) of an ekranoplane, the occurrence of failures and their elimination during maintenance, but does not provide for other processes and modes characteristic of the operation of ekranoplans, including standby modes at the port, waiting and carrying out repairs, various forms of maintenance, changing engines, preparation for the flight (departure), owl sheniya flight (flight), ready for the different modes, and others.

 Closest to the proposed invention is a device for simulating a QS [2], containing a single pulse generator, first and second elements OR, a first trigger, first, second and third differentiating elements, a generator of random preparation time intervals, a generator of random operation time intervals, the first and the second random pulse flow generators, a random recovery time generator, six AND elements, a counter of the number of served requests, a counter of the total number of applications and a counter ik of the number of service failures, and the output of the first OR element is connected to a single input of the first trigger, the output of which is connected to the first input of the first And element and to the input of the first differentiating element, the output of which is connected to the input of the random preparation time interval generator, the output of which is connected to the input the second differentiating element, the output of the third differentiating element is connected to the direct input of the third element And, the output of which is connected to the input of the counter of the number of served applications, the output of the fourth element And is connected to the input of the counter of the number of interruptions in servicing applications, the output of the first generator of a random pulse flow is connected to the input of the counter of the total number of applications, two generators of random intervals for the transportation of the servicing device, fourth to ninth differentiating elements, a generator of random intervals for the deployment time serving device, second and third triggers, generator of random intervals of the rolling-up time of the serving device and counter block kov, and the output of the first generator of random intervals of transportation time of the serving device is connected to the first input of the counter block and the input of the fourth differentiating element, the output of which is connected to the input of the generator of random intervals of the deployment time of the serving device, the output of which is connected to the second input of the counter block and the input of the fifth differentiating element whose output is connected to the first input of the first OR element and the start input of the first random pulse stream generator, the output for which it is connected to the second input of the first element And, the output of which is connected to the zero input of the first trigger, the output of the second differentiating element is connected to the start input of the random time generator, the output of which is connected to the input of the third differentiating element, the output of which is connected to the second input of the first element OR, the output of the random generator of operating time intervals is connected to the first input of the second AND element, the second input of which is connected to the output of the second random flow generator pulses, the output of the second element And is connected to the stop input of the random time generator and the start input of the random recovery time generator, the output of which is connected to the inverse inputs of the first, second and third elements And, the first input of the fourth element And and the third input of the counter block, the first the output of the single pulse generator is connected to a single input of the second trigger, the output of which through the sixth differentiating element is connected to the start input of the first random generator intervals of transportation of the servicing device, the second output of the single pulse generator is connected to the stop input of the first random pulse stream generator, the inverse input of the fifth AND element and the first input of the sixth AND element, the output of which is connected to the first input of the second OR element, the output of which is connected to the input of the random generator coagulation time intervals of the service device, the output of which is connected to the fourth input of the counter block and the input of the seventh differentiating element, the output of the cat It is connected to the input of the second generator of random time intervals for transporting the service device, the output of which is connected to the fifth input of the counter block and the input of the eighth differentiating element, the output of which is connected to the zero input of the second trigger, the output of the first trigger is connected to the sixth input of the counter block, the second input of the sixth element And the direct input of the fifth element And, the output of which is connected to a single input of the third trigger, the output of which through the ninth differentiating element is connected to the second the input of the second OR element, the output of the third differentiating element is connected to the second input of the fourth AND element and the zero input of the third trigger, the output of the random preparation time generator is connected to the seventh input of the counter block.

 However, this device allows you to simulate only individual processes characteristic of the operation of ekranoplanes. At the same time, this device does not allow simulating processes: waiting for ekranoplanes in the port, ensuring the preparation of ekranoplanes for a flight (departure), various types of maintenance and repair of ekranoplanes, including before a flight (departure), the readiness of ekranoplanes for flights (departures), providing flight, flight crossing (flight) to the cargo delivery area, flight (movement) in the area of the object in distress, and its detection, unloading (discharge) of cargo, return flight crossing (flight), change of engines, waiting for spare hours Tey and carrying out improvements, the occurrence of failures and their elimination.

 The technical result from the use of the invention is to increase the modeling accuracy and expand the functionality and scope of the device by simulating processes: waiting for ekranoplanes in the port, ensuring the preparation of ekranoplanes for a flight (departure), various types of maintenance and repair of ekranoplanes, including before a flight ( departure), ekranoplanes readiness for flights (departures), flight support, route crossing (flight) to the cargo delivery area, flight (movement) in the area where the objects are located and distress, and its detection, discharge (ejection) of cargo, reverse shuttle transition (flight), engine change, expectation parts and holding completions, the occurrence of failures and their elimination.

 This technical result is achieved by the fact that in the device for modeling the operation processes of ekranoplanes during operation, containing a single pulse generator, two command generators, first and second elements OR, first to sixth elements AND, first to third triggers, first to seventh generators random time intervals, the first and second differentiating elements, and the output of the single pulse generator is connected to the start input of the first command generator, the output of the first OR element is connected to the input start the first generator of random time intervals, the output of the first differentiating element is connected to the first input of the second element OR, the first output of the second generator of commands is connected to the first input of the first element And, the output of the second generator of random intervals is connected to the first input of the second element And, a single output of the first trigger connected to the direct input of the third element And, to the first inputs of the fourth and fifth elements And, the output of the fifth element And is connected to the zero input of the first trigger, additional о introduced from the seventh to seventeenth AND elements, from the third to twenty-second OR elements, two blocks of random number generators, three decoders, the fourth trigger, two random pulse generators, from the eighth to twenty-third random time generators, random-duration pulse generator, generator random numbers, four shaper of readiness time intervals, a delay element, the first output of the first command generator being connected to the first input of the first OR element, the output of the single impu xs is connected to the start input of the second command generator, the output of the first random time generator is connected to the start input of the third random time generator, the output of which is connected to the start input of the first ready-time interval generator, the output of which is connected to the input of the first differentiating element, the output of which is connected to the first input of the second OR element, the output of which is connected to the start input of the twenty-third random time generator, the output of which is connected It is connected to the start input of the fourth random time generator, the output of which is connected to the start input of the fifth random time generator, the output of which is connected to the first input of the seventh element And through the delay element and the start of the pulse generator of random duration, the output of which is connected to the second input of the seventh element And through the second differentiating element to the first input of the third OR element and the stop input of the sixth random time generator, the start input of which is connected inen with the output of the seventh AND element, and the output of which is with the second input of the third OR element, the output of which is connected to the stop input of the pulse generator of random duration, to the first input of the eighth AND element, the output of which is connected to the zero input of the second trigger and the start input of the seventh random generator time intervals, the output of which is connected to the unit input of the second trigger, and the unit output of which is connected to the second input of the eighth element And, the output of the seventh generator of random time intervals also it is connected to the start input of the eighth random time generator, the output of which is connected to the start input of the first block of random number generators, the first to tenth outputs of which are connected to the corresponding inputs of the first decoder, the first to tenth outputs of which are connected to the corresponding inputs of the fourth OR element, output which is connected to the stop input of the first block of random number generators, the first output of the first decoder is connected to the start input of the ninth random interval generator in If the output is connected to the second input of the first OR element, the second output of the first decoder is connected to the start input of the tenth random time generator, the output of which is connected to the start input of the second block of random number generators, the first to fifth outputs of which are connected to the corresponding inputs of the second decoder whose outputs from the first to fifth are connected to the corresponding inputs of the fourth OR element, the output of which is connected to the stop input of the second block of random number generators, the fourth, fifth, fifth, sixth and seventh outputs of the first decoder are connected respectively to the first inputs of the sixth, seventh, eighth, ninth and tenth elements OR, the second inputs of which are connected respectively to the first, second, third, fourth and fifth outputs of the second decoder, the output of the sixth OR element is connected to the start input of the eleventh random time generator, the output of which is connected to the third input of the first OR element, the outputs of the seventh, eighth, ninth and tenth elements are connected respectively to the triggering inputs of the twelfth, thirteenth, fourteenth, and fifteenth generators of random time intervals, the output of which is connected to the corresponding inputs of the eleventh element OR, the output of which is connected to the single input of the third trigger, the single output of which is connected to the first input of the ninth and direct input of the tenth element And, the output of the ninth AND element is connected to the first input of the twelfth OR element and the start input of the sixteenth random time generator, the output of which is connected n with the first input of the thirteenth OR element, the output of the twelfth OR element is connected to the zero input of the third trigger, the output of the tenth AND element is connected to the second inputs of the twelfth and thirteenth OR elements and the stop input of the first random pulse generator, the output of which is connected to the inverse of the tenth and second input of the ninth AND elements, the output of the thirteenth OR element is connected to the start input of the second shaper of the readiness time intervals, the output of which is connected to the first input of the eleventh AND element whose output is connected to the first input of the fourteenth OR element, the output of which is connected to the fourth input of the first OR element, the second output of the second command generator is connected to the first input of the twelfth and inverse input of the thirteenth AND element, the output of the twelfth element AND is connected to the second input of the fourteenth OR element, the output of the thirteenth AND element is connected to the first input of the fifteenth OR element, the output of which is connected to the start input of the third shaper of the readiness time intervals, the output of which is dinen with the first input of the fourteenth AND element, the output of which is connected to the second input of the second OR element, the third and fourth outputs of the second command generator are connected respectively to the second input of the fourteenth and eleventh elements AND, the eighth output of the first decoder is connected to the start input of the seventeenth random time generator, the output of which is connected to the input of the start of the random number generator, the first and second outputs of which are connected to the first and second inputs of the third decoder, respectively, the first and second outputs of which are connected to the inputs of the sixteenth OR element, respectively, whose output is connected to the stop input of the random number generator, the first and second outputs of the third decoder are connected respectively to the start input of the eighteenth and nineteenth random time generators, the output of which is connected respectively to the inputs of the seventeenth element OR, the output of which is connected to the start input of the fourth shaper of readiness time intervals, the output of which is connected to the first input m of the fifteenth AND element, the output of which is connected to the third input of the fourteenth OR element, the ninth output of the first decoder is connected to the first input of the eighteenth OR element, the output of which is connected to the first input of the nineteenth OR element and to the start input of the twentieth random time generator, the output of which is connected to the single input of the fourth trigger, the single output of which is connected to the direct input of the sixteenth, the first input of the seventeenth and the second input of the second element And, the output of which is inen with the zero input of the fourth trigger and the second input of the eighteenth OR element, the output of the sixteenth AND element is connected to the first input of the twentieth OR element, the second input of the first and direct input of the sixth AND element, the output of which is connected to the second input of the fifteenth OR element, the output of the first AND element is connected to the third input of the second OR element, the first output of the second command generator is also connected to the inverse input of the sixth element AND, the output of the seventeenth element AND is connected to the first input of the twenty-first element nt OR, whose output is connected to the start input of the second random time generator, the output of which is connected to the second input of the fifth AND element, the output of which is connected to the first input of the twenty second OR element, the tenth output of the first decoder is connected to the second input of the twenty second OR element, output which is connected to the second input of the nineteenth OR element and the start input of the twenty-first random time generator, the output of which is connected to a single input of the first trigger, the output is nine of the twelfth OR element is connected to the start input of the second random pulse generator, the output of which is connected to the second input of the seventeenth AND element, the inverse of the third and sixteenth, the second input of the fourth AND element, the output of which is connected to the second input of the twenty-first OR element, the output of the third AND element is connected to the second input of the twentieth OR element, the output of which is connected to the stop input of the second random pulse generator, the output of the third AND element is also connected to the start input of the twenty-second for generators of random time intervals, the output of which is connected to the second input of the twelfth and thirteenth direct input of AND gates, second and third outputs of first command generator connected respectively to the trigger input of the first random generator and a second input of the fifteenth element I.

 Comparative analysis with the prototype shows that the claimed device is characterized by the presence of twelve additional AND elements, twenty OR elements, two blocks of random number generators, three decoders, two random pulse generators, fifteen random time generators, a random pulse generator, a random number generator, delay element and four shapers of readiness time intervals and the corresponding functional relationships with the remaining elements troystva that meets the criterion of novelty.

 The search for technical solutions in the scientific and technical literature and related fields of technology did not reveal solutions having features that match the distinguishing features of the claimed invention, which meets the criterion of inventive step.

 The drawing shows a structural diagram of a device containing a generator of 1 single pulses, the first 2 command generator, the first 3 element OR, the first 4 generator of random time intervals, simulating the process of preparing the ekranoplanes (EP) for the flight (departure), the third 5 generator of random time intervals , simulating the conduct of operational maintenance (TO) before the flight (departure), the first 6 shaper of the readiness time interval, simulating the readiness of the EA after operational maintenance, the first 7 differentiating element, second 8 element OR, twenty-third 9 random time generator simulating the route refinement before the flight (departure), fourth 10 random time generator simulating the departure (departure) process, fifth 11 random time generator simulating the flight transition (flight) to the cargo delivery area, the eighth 12 random time generator simulating the process of ensuring arrival (landing or mooring), the fourth 13th element OR, the first 14, the second 15 blocks of generators tea numbers, first 16, second 17 decoders, tenth 18 random time generator that simulates the standby of periodic maintenance after a flight (flight), fifth 19, sixth 20, seventh 21, eighth 22, ninth 23, tenth 24 elements OR, ninth 25 a random time generator that simulates a change of engines, a second 26 random pulse generator that simulates failures (malfunctions), the eleventh 27 random time generator that simulates a maintenance according to form 1, the twelfth 28 random time generator simulating maintenance in form 2, thirteenth 29 random time generator simulating maintenance in form 3, fourteenth 30 random time generator simulating maintenance in form 4, fifteenth 31 random interval generator simulating maintenance in form 5, seventeenth 32 random time generator simulating repair standby mode, 33 random number generator, third 34 descrambler, eighteenth 35 random time generator simulating repair mode by form 1, nineteenth 36 random time generator simulating the repair mode according to form 2, sixteenth 37, nineteenth 38, eleventh 39 elements OR, the first 40 random pulse generator simulating the need for modifications on the electric drive, the third 41 trigger, ninth 42, tenth 43 I elements, sixteenth 44 generator of random time intervals, which imitates the completion of modifications on the electric drive, thirteenth 45, twelfth 46 elements OR, the second 47 shaper of readiness time intervals, simulating the readiness of the electric drive after of periodic maintenance, eleventh 48 AND element, fourteenth 49, seventeenth 50 OR elements, fourth 51 readiness time interval generator that simulates the EP ready mode after repair, fifteenth 52 AND element, eighteenth 53, twenty second 54 OR elements, twentieth 55 random interval generator time, simulating the conduct of transit (operational) maintenance, twenty-first 56 random-time interval generator, simulating operational maintenance after the flight (arrival), fourth trigger 57, sixteenth 58 element I, twenty fifth 59th OR element, seventeenth 60th AND element, first 61 trigger, third 62nd AND element, twenty second 63 random time generator simulating standby and receiving spare property, twenty first 64th OR element, second 65 command generator, fourth 66th AND element , second 67 random time generator simulating the process of troubleshooting, twelfth 68, thirteenth 69, first 70, sixth 71, second 72, fifth 73 AND elements, fifteenth 74 OR element, third 75 readiness time interval generator, simulating ready ES to flight (departure), fourteenth 76 element AND generator of 77 pulses of random duration, second 78 differentiating element, third 79 element OR, eighth 80, seventh 81 elements I, sixth 82, seventh 83 random time generators, second 84 trigger, delay element 85.

 The generators of the device 1, 2, 4, 5, 10, 11, 12, 65, 55, 67 are functionally equivalent to the generators of the prototype 1, 10, 26, 28, 4, 6, 13, 17, 19, 15, therefore they are assigned to the restrictive part claims

 The output of the generator 1 is connected to the start input of the generators 2 and 65. The first, second and third outputs of the generator 2 are connected respectively to the first input of the OR 3 element, the start input of the generator 40, the second input of the AND 52 element. The output of the OR 3 element is connected to the input of the generator 4, the output of which is connected to the start input of the generator 5, the output of which is connected to the input of the shaper 6, the output of which is connected through a differentiating element 7 to the first input of the OR element 8, the output of which is connected to the start input of the generator 9, the output of which is connected to during the start of the generator 10, the output of which is connected to the input of the generator 11, the output of which is connected to the first input of the And 81 element through the delay element 85 and to the start input of the generator 77, the output of which is connected to the second input of the And 81 element and through the differentiating element 78 with the first input the OR element 79 and the stop input of the generator 82, the start input of which is connected to the output of the And 81 element, and the output of which is to the second input of the OR 79 element, the output of which is connected to the stop input of the generator 77, with the first input of the And 80 element, the second input of which connected to the single output of the trigger 84, and the output of which is to the zero input of the trigger 84 and the start input of the generator 83, the output of which is connected to a single input of the trigger 84 and the start input of the generator 12, the output of which is connected to the start input of the first block of generators 14, the outputs of which are the first to tenth are connected to the corresponding inputs of the first decoder 16, the outputs of which from the first to tenth are connected to the corresponding inputs of the OR element 13, the output of which is connected to the stop input of the first block of generators 14, the first output is the encoder 16 is connected to the start input of the generator 25, the output of which is connected to the second input of the OR element 3. The second output of the decoder 16 is connected to the start input of the generator 18, the output of which is connected to the start input of the second block of generators 15, the outputs of which are connected from the first to the fifth the inputs of the second decoder 17, the outputs of which are connected from the first to the fifth to the corresponding inputs of the OR element 19, the output of which is connected to the stop input of the generator block 15. The third, fourth, fifth, sixth and seventh outputs of the decoder the rotor 16 are connected respectively to the first inputs of the OR elements 20, 21, 22, 23, 24, the second inputs of which are connected respectively to the first, second, third, fourth and fifth outputs of the decoder 17. The output of the OR element 20 is connected to the start input of the generator 27, the output which is connected to the third input of the OR element 3. The outputs 21, 22, 23, 24 of the OR elements are connected respectively to the start inputs of the generators 28, 29, 30, 31, the outputs of which are connected to the corresponding inputs of the OR element 39, the output of which is connected to a single trigger input 41, single output is connected to the first input of the AND element 42 and the direct input of the AND element 43, the output of the AND element 42 is connected to the first input of the OR element 46 and the start input of the generator 44, the output of which is connected to the first input of the OR element 45, the output of the OR element 46 is connected to the zero input trigger 41, the output of the AND element 43 is connected to the second inputs of the OR 45 and OR 46 elements and the stop input of the generator 40, the output of which is connected to the inverse input of the And 43 element and the second input of the And 42 element. The output of the OR element 45 is connected to the input of the shaper 47, the output which is connected n to the first input of AND element 48, the output of which is connected to the first input of OR element 49, the output of which is connected to the fourth input of OR element 3.

 The first and second outputs of the generator 65 are connected respectively to the first input of the element And 70 and the inverse input of the element And 71, with the first input of the element And 68 and the inverse input of the element And 69. The output of the element And 70 is connected to the third input of the element OR 8, the output of the element And 68 connected to the second input of the OR element 49, the output of the AND 69 element is connected to the first input of the OR element 74, the output of which is connected to the input of the driver 75, the output of which is connected to the first input of the AND element 76, the output of which is connected to the second input of the OR element 8. The third and fourth exit s generator 65 are connected respectively to the second inputs of the AND 76 and AND 48.

 The eighth output of the decoder 16 is connected to the start input of the generator 32, the output of which is connected to the start input of the generator 33, the first and second outputs of which are connected to the corresponding inputs of the decoder 34, the first and second outputs of which are connected to the first and second inputs of the OR element 37, respectively, the output of which connected to the stop input of the generator 33, the first and second outputs of the decoder 34 are also connected respectively to the start inputs of the generators 35 and 36, the outputs of which are connected respectively to the first and second inputs of the element and OR gate 50, whose output is connected to the input of driver 51, whose output is connected to a first input of AND gate 52, whose output is connected to the third input of the OR element 49.

 The ninth output of the decoder 16 is connected to the first input of the OR element 53, the output of which is connected to the first input of the OR element 38 and the start input of the generator 55, the output of which is connected to the single input of the trigger 57, the single output of which is connected to the direct input of the element And 58, the first input of the element And 60, the second input of AND element 72, the output of which is connected to the zero input of the trigger 57 and the second input of OR element 53, the output of And element 58 is connected to the first input of OR element 59, the second input of And 70 element and the direct input of And 71 element, the output of which with is single with the second input of the AND element 74, the output of the And element 60 is connected to the first input of the OR element 64, the output of which is connected to the start input of the generator 67, the output of which is connected to the first input of the And element 72 and the second input of the And element 73, the output of which is connected to the first the input of the OR element 54, the zero input of the trigger 61, the single output of which is connected to the first inputs of the elements AND 66, AND 73, the direct input of the element AND 62, the output of the element AND 66 is connected to the second input of the element OR 64.

 The tenth output of the decoder 16 is connected to the second input of the OR element 54, the output of which is connected to the second input of the OR element 38 and the start input of the generator 56, the output of which is connected to a single input of the trigger 61, the output of the OR element 38 is connected to the start input of the generator 26, the output of which is connected to the second input of the And 60 element, to the inverse inputs of the And 62, And 58 elements, to the second input of the And 66 element, the output of the And 62 element is connected to the second input of the OR element 59, the output of which is connected to the stop input of the generator 26, the output of the And 62 element connected to the start input of the generator 63, the output of which is connected to the second input of the And 68 element and the direct input of the And 69 element.

 The device is designed to solve the following problem. Ekranoplans (EP) - high-speed vessels that can move both on the earth's surface (land and water) and in the air, are in the port, i.e. in standby mode to prepare for the flight (departure). According to the command to prepare for the flight on the EP, measures are taken to ensure preparation for the flight, operational maintenance (TO) before the flight and the EP are ready after the specified activities for the flight. After this, the departure (departure) of the EP is ensured, the route is specified and the route (flight) is made to the cargo delivery area, for example, to the area where the ship in distress is located, stay (flight) in this area, unloading (discharge) of cargo, provided that the area is detected delivery or the goods are not unloaded, if the delivery area (ship in distress) is not detected, the return flight (flight) to the area where the ES is based. Such modes are characteristic of ekranoplanes used in search and rescue operations of ships and aircraft in distress. Next, measures are taken to ensure the arrival (landing) of the EP. Depending on the tasks performed and the state of the electronic signature, various events can be carried out on them either immediately or after a certain waiting time. Such events (processes) include: operational (transit) maintenance before departure and after arrival, periodic maintenance according to forms 1, 2, 3, 4, 5, engine change, waiting for repairs and its implementation according to forms 1 or 2, revisions to ballots occurrence and elimination of failures, replacement of spare parts. After the completion of the relevant processes (events), the EP goes into readiness, i.e., for example, in readiness for preparation for a flight (departure) after repair, in readiness for preparation for a flight after periodic maintenance, in readiness for a flight after operational maintenance, etc. .d. After that, according to the command to prepare for the flight (departure) on the EP, appropriate measures are taken to ensure preparation for the flight, including operational maintenance before the flight (departure), etc.

 The above measures and the operation processes of ekranoplanes during operation can begin at random times and leak random time intervals distributed according to various laws.

 The task of the device is as follows. By modeling with the help of the device the operation processes of ekranoplans during operation under various conditions of their application and for various laws of distribution of random time intervals of their course, taking into account the dynamics and specifics of their application and counting the statistical characteristics of these processes from the readings of counters connected to various elements of the device, one can evaluate various probabilistic-temporal statistical indicators of the operation processes of ekranoplans during operation, as well as investigate l the impact on them of the main operational and technical characteristics of ekranoplanes, taking into account the dynamics and specifics of their functioning, justify the requirements for them and the ways to ensure them.

 The device operates as follows. In the initial state, all the device’s generators are not started, trigger 41 is in the position in which the And 42 element is closed at the first input, and the And 43 element is at the direct input, the 57 trigger is And 58 elements at the direct input, And 60 at the first input and And 72 at the second input are closed, trigger 61 - elements And 62 at the direct input, And 66, And 73 at the first inputs are closed, trigger 84 - element And 80 is open at the second input. After the device is turned on, all the triggers are reset. The pulse from the output of generator 1 is the trigger for the entire device. This pulse starts the generators 2 and 65. The appearance of the pulse at the first output of the generator 2 corresponds to a command to prepare the electric drive for the flight (departure), which through the first input-output of the OR 3 element is fed to the input of the start of the generator 4, the output of which after a time imitating the mode of providing EP preparation for the flight, an impulse is generated that starts the generator 5, at the output of which, after a random interval of time, adequate to the duration of the operational maintenance stage before the flight (departure), an impulse is generated that starts the shaper 6, simulating the time interval of readiness after operational maintenance for the flight. The pulse from the output of the shaper 6 goes to the input of the differentiating element 7, after which a pulse appears at its output, which goes to the first input - the output of the element OR 8, from the output of which the pulse goes to the input of the start of the generator 9, the output of which after a random interval of time , adequate to the route refinement time, an impulse appears that starts the generator 10, at the output of which, after a time interval simulating the mode of ensuring the departure (departure) of the EA, an impulse appears that starts the generator 11 , at the output of which, after a time adequate to the duration of the flight to the cargo delivery area, an impulse appears that starts the generator 77, simulating the location (flight) of the EP in the cargo delivery area. From the output of the generator 77, the pulse enters the second input of the AND element 81, allowing the pulse to pass from the output of the delay element 85, which starts the generator 82, at the output of which, after a time adequate to the duration of unloading (discharge) of the load, an impulse appears which, passing through the OR element 79, stops the generator 77, and through the And 80 element transfers the trigger 84 to the zero state, closing the And 80 element, starts the generator 83, at the output of which after a time adequate to the duration of the flight from the cargo delivery area to the port of arrival, appears An impulse is generated that transfers trigger 84 to its initial state. If during the duration of the pulse at the output of the generator 77 there is no pulse at the output of the generator 82, which simulates the non-detection of the object to which the load is intended, then at the end of the pulse at the output of the generator 77 the input of the element And 81 is closed and an output appears at the output of the differentiating element 78, which stops the generator 82 and passes through the elements OR 79, AND 80, starting the generator 83 and puts the trigger 84 in the zero state, closing the element And 80, thereby simulating the transition (flight) from the delivery area with unloaded (unloaded nym) in the planned area of the cargo, ie, For example, the ekranoplane did not find a ship in distress, then the cargo is not thrown away. The pulse from the output of the generator 83 starts the generator 12, simulating the mode of ensuring the arrival (landing) of the EA. From the output of the generator 12, the pulse is triggered by a block of generators 14, from the first to tenth outputs of which are connected to the inputs of the decoder 16, respectively, the outputs from the first to tenth of which are connected to the corresponding inputs of the OR element 13.

 In the event of a random appearance of a pulse at the first output of the decoder 16 and its arrival at the start input of the generator 25, the beginning of a random interval of time for changing engines is simulated. Upon completion of the change of engines, an impulse appears at the output of the generator 25, which, passing through the second input-output of the OR element 3, starts the generator 4, and passing through the first input-output of the OR element 13, stops the block of generators 14, then the device operates according to the above scheme.

 If a pulse appears randomly at the second output of the decoder 16, the generator 18 starts, at the output of which, after a random time adequate to wait for periodic maintenance after the flight (flight), a pulse appears that starts the second block of generators 15, the outputs of which from the first to the fifth are connected respectively to the inputs decoder 17.

 If the pulse appears accidentally at the third output of the decoder 16 or at the first output of the decoder 17, it enters the first or second input-output of the OR element 20 and starts the generator 27, at the output of which, after a random time, adequate to the maintenance in form 1, a pulse appears that through the third input-output element OR 3 starts the generator 4, then the device operates as described above.

 In the event of a random appearance of a pulse at the fourth output of the decoder 16 (or at the second output of the decoder 17), it arrives at the first (second) input-output of the OR element 21, starts the generator 28, at the output of which, after a random time interval, which is adequate to the maintenance according to form 2, an impulse appears, which enters through the first input-output of the OR element 39 to the single input of the trigger 41, translating it into a single state. The voltage from the single output of the trigger 41 is supplied to the first input of the And 42 element and to the direct input of the And 43 element, the inverse input of which is connected to the output of the generator 40, the appearance of a pulse at the output of which corresponds to the need for improvements on ballots on the electronic ballot.

 The generator 40 is started by a pulse from the second output of the generator 2. If, by the time the voltage at the output of the trigger 41 appears, the generator 40 did not work, then the And 43 element opens at the inverse input, from the output of which the voltage drop turns off the generator 40, coming to its stop input, and through the second input-output of the OR element 45, the shaper 47 of the random interval of the readiness time after periodic maintenance starts. If the generator 40 has worked, then the pulse from its output through the second input-output of the AND element 42 goes to the first input of the OR element 46, from the output of the latter to the zero input of the trigger 41, bringing it to its original state, which is also done by the output pulse of the And element 43 through the second input-output of the OR element 46. From the output of the AND element 42, the pulse also starts the generator 44, at the output of which, after a random time, adequate to the completion time for the ballots, a pulse is generated which, through the first input-output of the OR element 45, starts the driver 47,Exit is connected to the first input of AND gate 48, a second input coupled to a fourth output of the command generator 65. The pulse appearing at the fourth output of the generator 65 corresponds to enter commands for the preparation of EPO for the flight (flight). This pulse through the second input-output of the And 48 element (in the presence of the enabling voltage at its first input from the shaper 47) enters through the first input-output of the OR element 49 to the fourth input-output of the OR element 3, starting the generator 4, then the circuit works as described higher.

 If a pulse appears accidentally at the fifth output of the decoder 16 (or at the third output of the decoder 17), it arrives at the first (or second) input-output of the OR element 22, starts the generator 29, at the output of which, after a random time interval, adequate to the maintenance of form 3 , there is a pulse that enters through the second input-output of the OR element 39 to the single input of the trigger 41, then the device operates similarly to the one described above.

 In the event of a random appearance of a pulse at the sixth output of the decoder 16 (or at the fourth output of the decoder 17), it enters the first (or second) input-output of the OR element 23, starts the generator 30, at the output of which, after a random time interval, adequate to conduct maintenance in form 4 , there is a pulse that enters through the third input-output of the OR element 39 to the single input of the trigger 41, then the device operates similarly to the one described above.

 In the event of a random appearance of a pulse at the seventh output of the decoder 16 (or at the fifth output of the decoder 17), it arrives at the first (or second) input-output of the OR element 24, starts the generator 31, at the output of which, after a random time interval adequate to the maintenance according to form 5 , there is a pulse that enters through the fourth input-output of the OR element 39 to the single input of the trigger 41, then the device operates similarly to the one described above. When a pulse appears at any of the outputs of the decoders 16 (or 17), passing through the corresponding inputs of the elements OR 13 (OR 19), sets the blocks of the generators 14 (15) to their initial state.

 In the event of a random appearance of a pulse at the eighth output of the decoder 16, it enters the start input of the generator 32, at the output of which, after a random time interval adequate to the standby mode of repair, a pulse appears that starts the random number generator 33, the first and second outputs of which are connected to the corresponding inputs of the decoder 34. When a pulse appears at the first (second) output of the decoder 34, it enters the start input of the generator 35 (36), at the output of which, after a random interval of time, is adequate to repair form 1 (form 2), a pulse which is supplied via the first (second) input-output of the OR gate 50 to the input of driver 51 start random time interval readiness after repair, the output of which produces a pulse duration, simulating the duration of standby mode after repair. This pulse acts on the first input of the And 52 element, the second input of which receives a pulse from the third output of the generator 2, simulating the receipt of a command to prepare the EP for the flight and passing through the third input-output of the OR element 49 to the fourth input of the OR element 3, then the device works according to the above scheme.

 When a pulse appears at the ninth output of the decoder 16, it passes through the first input-output of the OR element 53 to the start input of the generator 55 and through the first input-output of the OR element 38 to the start input of the generator 26. At the output of the generator 55, after a random time interval adequate to the operational mode (transit) THAT, there is a pulse that arrives at the single input of the trigger 57, translating it into a single state. The voltage from the single output of the trigger 57 goes to the direct input of the element And 58, to the first and second inputs of the elements And 60, And 72. The pulses from the output of the generator 26, simulating the occurrence of failures, are received at the second input of the element And 60. This pulse from the output of the generator 26 through the second input-output of the element And 60 (if there is a enable voltage at its first input) is supplied through the first input-output of the element OR 64 to the input of the start of the generator 67, the output of which after a random time interval adequate to the elimination time the failure detected during the maintenance, there is an impulse that goes to the first input of the element And 72 and to the second input of the element And 73. Since the second input of the element And 72 there is a resolution voltage from a single output of the trigger 57, then, passing the element 72, and entered at the zero input of trigger 57, will transfer it to its original state, and after passing through the second input-output of the OR gate 53, will go to the start input of the generator 55, then the device again goes into operational mode (transit) THEN.

 When a pulse appears at the tenth output of the decoder 16, it passes through the second input-output of the OR element 54 to the start input of the generator 56 and through the second input-output of the OR element 38 - the generator 26. At the output of the generator 56, after a random time interval adequate to the operational maintenance mode after arrival (landing), an impulse appears, which is supplied to the single input of the trigger 61, translating it into a single state. The voltage from the single output of the trigger 61 goes to the direct input of the And 62 element, the first inputs of the And 66, And 73 elements. The second input of the And 66 element receives a pulse from the output of the generator 26, passing it and the OR element 64, starts the generator 67 and then the pulse passes element And 73, so, at its first input there is a permissive voltage from the single output of trigger 61. The pulse from the output of element And 73 is fed to the zero input of trigger 61, translating it to its original state, and also through the first input-output of the OR element 54 to the input start generator 56, after which the mouth oystvo goes into operational mode after arrival.

 If the generator 26 did not generate a pulse, then in the case of the completion of the operational (transit) TO, the voltage will appear at the output of the And 58 element, since its inverse input is connected to the output of the generator 26, which through the first input-output of the OR element 59 goes to the stop input of the generator 26 interrupting the generation process, as well as to the second input of the And 70 element and the direct input of the And 71 element. Now, when an impulse arrives from the first output of the generator 65, which imitates the arrival of a command for the departure (departure) of the EA, this pulse passes to the first input of the And 70 element his, stumbles on the third input of the OR gate 8, whereupon the device switches to ensure the departure (departure) EP mode. If there is no pulse at the first output of the generator 65, then the And 71 element is triggered, the inverse input of which is connected to the first input of the generator 65. The pulse from the output of the And 71 element through the second input-output of the OR element 74 goes to the start input of the former 75, the output of which an impulse is generated, the duration of which is adequate to the duration of the standby mode after operational maintenance. The voltage pulse from the output of the shaper 75 is fed to the first input of the And 76 element, the second input of which is connected to the third output of the generator 65, where a pulse is generated that simulates the receipt of a command to conduct a flight (departure) after operational maintenance after the arrival of the EA. This pulse from the output of the And 76 element goes to the second input of the OR 8 element, after which the device switches to the flight (departure) mode.

 If the generator 26 did not generate a pulse, and the operational maintenance mode after arrival (arrival) is completed, that is, the trigger 61 is in the "one" state, then the And 62 element opens, from the output of which the pulse goes through the second input-output of the OR element 59 to the stop input of the generator 26, stopping its operation, and also starts the generator 63, at the output of which, after a time adequate to the standby mode and receiving spare parts, an impulse appears that goes to the second input of the And 68 element and to the direct input of the And 69 element. First input element And 68 connection nen with the second output of the generator 65, where a pulse appears that simulates the receipt of an order to transfer the device to the preparation mode for the flight, which is carried out by this pulse, passing from the output of the And 68 element through the second input-output of the OR element 49 to the fourth input of the OR element 3, and from the input of the latter to the start input of the generator 4. Next, the device operates according to the previously described scheme. If such a command has not been received, then the And 69 element opens, since its inverse input is connected to the second input of the generator 65. From the output of the And 69 element, the pulse passes through the first input to the output of the OR element 74 to the input of the former 75, then the device goes into standby mode after operational maintenance and operates according to the above scheme.

 The statistical characteristics of the operation processes of ekranoplanes during operation, taking into account the dynamics and specifics of their application, can be determined by the readings of meters connected to various elements of the device. The obtained probabilistic-temporal statistical characteristics for various laws of distribution of random time intervals of the functioning of ekranoplanes during operation, taking into account the dynamics and specifics of their application, allow solving the problems of estimating, predicting and providing indicators of the operational properties of ekranoplanes, for example, efficiency, availability, reliability, operational manufacturability, and others .

 Thus, as can be seen from the description of the operation of the device, the specified technical result is achieved.

Sources of information
1. USSR author's certificate 826358, cl. G 06 F 15/20, 1979.

 2. Copyright certificate of the USSR 1095186, cl. G 06 F 15/20, 1983.

Claims (1)

 A device for modeling the operation processes of ekranoplans during operation, containing a single pulse generator, two command generators, first and second elements OR, first to sixth elements AND, first to third triggers, first to seventh random time generators, first and second differentiating elements, and the output of the single pulse generator is connected to the start input of the first command generator, the output of the first OR element is connected to the start input of the first random interval generator time, the output of the first differentiating element is connected to the first input of the second element OR, the first output of the second generator of commands is connected to the first input of the first element And, the output of the second generator of random intervals is connected to the first input of the second element And, the unit output of the first trigger is connected to the direct input of the third element And, to the first inputs of the fourth and fifth elements And, the output of the fifth element And is connected to the zero input of the first trigger, characterized in that it is entered from the seventh to seventeenth element s And, from the third to twenty-second OR elements, two blocks of random number generators, three decoders, two random pulse generators, from the eighth to twenty-third random time generators, a random pulse generator, random number generator, four readiness time interval shapers, the fourth trigger, a delay element, and the first output of the first command generator is connected to the first input of the first OR element, the output of the single pulse generator is connected to the start input of the second gene a command generator, the output of the first random time generator is connected to the start input of the third random time generator, the output of which is connected to the start input of the first ready-time interval generator, the output of which is connected through the first differentiating element to the first input of the second OR element, the output of which is connected to the input starting the twenty-third random generator, the output of which is connected to the input of the fourth random generator, you the course of which is connected to the start input of the fifth random time generator, the output of which is connected to the first input of the seventh element And through the delay element and the start input of the pulse generator of random duration, the output of which is connected to the second input of the seventh element And through the second differentiating element to the first input of the third the OR element and the stop input of the sixth random time generator, the trigger input of which is connected to the output of the seventh AND element, and the output of which is third of the first OR element, whose output is connected to the stop input of the pulse generator of random duration, to the first input of the eighth AND element, the output of which is connected to the zero input of the second trigger and the start input of the seventh random time generator, the output of which is connected to the single input of the second trigger, and the unit the output of which is connected to the second input of the eighth element And the output of the seventh random time generator is also connected to the start input of the eighth random time generator, the output of which is connected to the start input of the first block of random number generators, the first to tenth outputs of which are connected to the corresponding inputs of the first decoder, the first to tenth outputs of which are connected to the corresponding inputs of the fourth OR element, the output of which is connected to the stop input of the first block of random number generators , the first output of the first decoder is connected to the start input of the ninth random time generator, the output of which is connected to the second input of the first OR element, second the output of the first decoder is connected to the start input of the tenth random time generator, the output of which is connected to the start input of the second block of random number generators, the first to fifth outputs of which are connected to the corresponding inputs of the second decoder, the first to fifth outputs of which are connected to the corresponding inputs of the fourth element OR, the output of which is connected to the stop input of the second block of random number generators, the third, fourth, fifth, sixth and seventh outputs of the first decoder are connected respectively, to the first inputs of the sixth, seventh, eighth, ninth and tenth OR elements, the second inputs of which are connected respectively to the first, second, third, fourth and fifth outputs of the second decoder, the output of the sixth OR element is connected to the start input of the eleventh random time generator, the output of which is connected to the third input of the first OR element, the outputs of the seventh, eighth, ninth and tenth OR elements are connected respectively to the trigger inputs of the twelfth, thirteenth, fourteenth and p of the thirteenth generator of random time intervals, the output of which is connected to the corresponding inputs of the eleventh element OR, the output of which is connected to the single input of the third trigger, the single output of which is connected to the first input of the ninth and direct input of the tenth element AND, the output of the ninth element And is connected to the first input of the twelfth element OR and the start input of the sixteenth random time generator, the output of which is connected to the first input of the thirteenth element OR, the output of the twelfth element LI is connected to the zero input of the third trigger, the output of the tenth element And is connected to the second inputs of the twelfth and thirteenth OR elements and the stop input of the first random pulse generator, the output of which is connected to the inverse input of the tenth and second input of the ninth AND element, the output of the thirteenth OR element is connected to the input start the second shaper of the readiness time intervals, the output of which is connected to the first input of the eleventh element And, the output of which is connected to the first input of the fourteenth element of the IL the output of which is connected to the fourth input of the first OR element, the second output of the second command generator is connected to the first input of the twelfth and inverse input of the thirteenth AND element, the output of the twelfth element And is connected to the second input of the fourteenth OR element, the output of the thirteenth element And is connected to the first input of the fifteenth element OR, the output of which is connected to the start input of the third shaper of readiness time intervals, the output of which is connected to the first input of the fourteenth AND element, the output of which is is connected to the second input of the second OR element, the third and fourth outputs of the second command generator are connected respectively to the second inputs of the fourteenth and eleventh elements AND, the eighth output of the first decoder is connected to the start input of the seventeenth random time generator, the output of which is connected to the start input of the random number generator, the first and second outputs of which are connected to the first and second inputs of the third decoder, respectively, the first and second outputs of which are connected to the inputs of the sixteenth OR element, respectively, whose output is connected to the stop input of the random number generator, the first and second outputs of the third decoder are connected respectively to the start inputs of the eighteenth and nineteenth random time generators, the output of which is connected respectively to the inputs of the seventeenth OR element, the output of which is connected to the start input of the fourth shaper of readiness time intervals, the output of which is connected to the first input of the fifteenth element And, the output of which is connected to the third input ode to the fourteenth OR element, the ninth output of the first decoder is connected to the first input of the eighteenth OR element, the output of which is connected to the first input of the nineteenth OR element and to the start input of the twentieth random time generator, the output of which is connected to a single input of the fourth trigger, the single output of which is connected to the direct input of the sixteenth, the first input of the seventeenth and the second input of the second AND element, the output of which is connected to the zero input of the fourth trigger and the second input of the twelfth OR element, the output of the sixteenth AND element is connected to the first input of the twentieth OR element, the second input of the first and direct input of the sixth AND element, the output of which is connected to the second input of the fifteenth OR element, the output of the first AND element is connected to the third input of the second OR element, the first output the second command generator is also connected to the inverse input of the sixth AND element, the output of the seventeenth AND element is connected to the first input of the twenty-first OR element, the output of which is connected to the start input of the second at random time intervals, the output of which is connected to the second input of the fifth AND element, the output of which is connected to the first input of the twenty-second OR element, the tenth output of the first decoder is connected to the second input of the twenty-second OR element, the output of which is connected to the second input of the nineteenth OR element and the input the start of the twenty-first random time generator, the output of which is connected to a single input of the first trigger, the output of the nineteenth OR element is connected to the start input of the second generator random pulses, the output of which is connected to the second input of the seventeenth AND element, the inverse inputs of the third and sixteenth, the second input of the fourth AND element, the output of which is connected to the second input of the twenty-first OR element, the output of the third AND element is connected to the second input of the twentieth OR element, the output of which connected to the stop input of the second random pulse generator, the output of the third element And is also connected to the start input of the twenty-second random time generator, the output of which is connected with the second input of the twelfth and the direct input of the thirteenth element And, the second and third outputs of the first command generator are connected respectively to the start input of the first random pulse generator and the second input of the fifteenth element I.