Device for modelling processes of operation of surface mobile measuring complex during normal operation

FIELD: computer science.

SUBSTANCE: device has random time ranges generators, imitating specific usage modes, elements AND, OR, triggers, delay elements, random numbers generators, decrypters and differentiative elements, providing for modeling of dynamics and specifics of operation of surface mobile measuring complex.

EFFECT: higher precision, broader functional capabilities.

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The invention relates to computing, and in particular to a specialized electronic modeling, and can be used to study the functioning of terrestrial mobile measurement systems (NMIC) when operating with regard to their modes and dynamics of the application.

A device for simulation of Queuing systems (MES), containing generators of random sequences of pulses, the counter, reversible counter, multi-line block of a random time delays, elements, elements, OR, the synchronization unit [1].

This device allows you to simulate SMO taking into account the possibilities of failures and their elimination, however, does not provide for other possible modes of operation, characteristic NMIK-modes arrive at the venue of the sessions with the aircraft (LA), deployment, session timeout, prepare to do a session with LA direct session with LA, the collapse of NMCA, return to the place of permanent residence.

Closest to the proposed invention is a device for the simulation of systems of mass service [2]containing the single pulse generator, the first element OR the first trigger, the first, second and third differentiating elements, generator SL is tea time intervals of training, the random time intervals, the first and second generators of the random stream of pulses, random intervals of time of recovery, the first, second, third, fourth, fifth and sixth elements And the second element OR the counter for the number of serviced requests, a count of the total number of applications and a counter for the number of disruptions of service applications, and the output of the first element OR is connected to a single input of the first flip-flop, the output of which is connected to the first input of the first element And to the input of the first differential element, the output of which is connected to the input of the generator of random time intervals of training, the output of which is connected to the input of the second differential element, the output of the third differential element connected to the direct input of the third element And whose output is connected to the input of a counter of the number of serviced requests, the fourth output element And is connected to the input of a counter of the number of failures of service applications, the output of the first random stream of pulses connected to the input of a counter of the total number of applications, the first and second generators of the random time intervals transportation service device, fourth, fifth, sixth, seventh, eighth and ninth differentiating elements, the random time intervals RAZVITIJA the I operating device, the second and third flip-flops, random intervals clotting time of the maintenance device and the block counter, and the output of the first random time intervals transportation operating device connected to the first input of block counter and the input of the fourth differential element, the output of which is connected to the input of the generator of random time intervals deployment of the operating device, the output of which is connected to the second input of block counter and the fifth input of the differentiating element, the output of which is connected to the first input of the first element OR the input of the start of the first random stream of pulses, the output of which is connected to the second input of the first element And whose output is connected to the zero input of the first trigger, the output of the second differentiating element is connected to the input of the start of the random intervals of time, the output of which is connected to the input of the third differential element, the output of which is connected to the second input of the first element OR the output of the random intervals of time connected to the first input of the second element And the second input is connected to the output of the second random stream of pulses, the output of the second element And is connected to the stop input of the generator of random intervals lie is no job and starting random intervals, recovery, the output of which is connected to the inverted inputs of the first, second and third elements And the first input of the fourth element And to a third input of block counter, the first generator output single pulses connected to the single input of the second trigger, the output of which through sixth differentiating element is connected to the input of the first random time intervals transportation service device, the second output of the single pulse generator is connected to the stop input of the first random stream of pulses, the negative input of the fifth element And the first input of the sixth element, And whose output is connected to the first input of the second element OR is connected to the input of the generator of random time intervals coagulation of the operating device, the output of which is connected to the fourth input of block counter and the input of the seventh differentiating element, the output of which is connected to the input of the second random time intervals transportation service device, the output of which is connected to the fifth input of the unit counters and the eighth input of the differentiating element, the output of which is connected to the zero input of the second trigger, the output of the first flip-flop is connected to the sixth input of block counter, the second input of the sixth element And the direct input of the fifth element And the output to the th is connected to a single input of the third trigger, the output of which through ninth differentiating element connected to the second input of the second element OR the output of the third differential element is connected to a second input of the fourth element And the zero input of the third trigger, the output of the random intervals of time preparation is connected to the seventh input of the counter.

However, this device does not allow to simulate the conduct of terrestrial mobile measuring complex sessions with the aircraft and transmitting the received information to LA to consumers.

The technical result from the use of the invention is to improve the accuracy of modeling and expanding functionality by simulating a ground mobile measuring complex sessions with the aircraft and transmitting the received information to consumers.

This technical result is achieved in that the device for simulation of processes of functioning of terrestrial mobile measuring system during operation, comprising a generator of single pulses, the first and second elements, OR first, second and third triggers, from the first to the eighth differentiating elements, the random time intervals training, random intervals clotting time, the random stream is of mulsow, the random time intervals deployment, from first to third elements, the first and second generators of the random time intervals transportation, and the output of the first element OR is connected to the input set to "1 "of the first trigger, the single output of which is connected to the first input of the first and third and the inverse input of the second element And to the input of the first differential element, the output of which is connected to the input of the start of the random intervals of time training, the output of which is connected to the input of the second differential element, the generator output random stream of pulses is connected to the second input of the first element And whose output is connected to the input installation in the "0" of the first trigger, the first generator output single pulses connected to the input set to "1 "of the second trigger unit the output of which through the third differentiating element is connected to the input of the first random time intervals transportation, the output of which through the fourth differentiating element is connected to the input of the start of the random time intervals deployment, the output of which is connected through the fifth differentiating element to the first input of the first element OR with starting random stream of pulses, the stop input which connect the EN with the second generator output single pulses and direct input of the second and the second input of the third elements And the output of the second element And is connected to the input set to "1" of the third trigger, the output of the third element And connected to the first input of the second element, OR a single output of the third trigger is connected through sixth differentiating element with the second input of the second element OR the output of which is connected to the input of the starting random intervals clotting time, the output of which through seventh differentiating element is connected to the input of the start of the second random time intervals transportation, the output of which is connected through eighth differentiating element with the input set to "0" of the second trigger, added a block of sessions, including the first to the eighth the generators of the random time intervals from the first to the tenth differentiating elements one through six triggers, with the first seven elements And, with the first seven elements OR the first and second delay elements, the first and second random number generators, the first and second decoders, and the output of the first random time intervals connected through the first differentiating element to the first input of the first OR element and through the second differentiating element with the input set to "1" the first flip-flop and the input of the start of the second random time intervals, the output catalogobject through the third differentiating element to the first input of the first element And the second input is connected to the single output of the first flip-flop, the output of the first element And connected to the first input of the second element OR the output of which is connected to the input of the start of the third random time intervals, the output of which is connected through a fourth differentiating element to the input of the start of the fourth random time intervals, the output of which through fifth differentiating element is connected to the input of the first random number generator, the first and second outputs of which are connected to first and second inputs of the first decoder, respectively, the first and second outputs of which are connected to first and second inputs of the third element OR, respectively, the output of which is connected to the stop input of the first random number generator, the first output of the first decoder is also connected with the input set to "1" of the second trigger and the input of the start of the fifth random time intervals, the output of which through sixth differentiating element is connected to the input set to "0" of the second and input set to" 1 "of the third trigger, single output of the latter is connected to the first input of the second element And the second input is connected to a single output of the first flip-flop, and the output of which is connected to a second input of the first and the first input of the fifth element OR the input of the mi stop the first and second generators random time intervals and input set to "0" the fourth flip-flop, the single output of which is connected to the third input of the second element And whose output is also connected through the first input of the fourth element OR the input set to "0" of the third trigger, the second input of the fourth element OR is connected to the input set to "0" the first flip-flop and the output of the first element OR the second output of the first decoder is connected with the input set to "1" the fifth trigger and through the first delay element to the first input of the third element And the second input is connected to a single output of the fifth trigger, the first input of the fifth element And the output of the third element And is connected to the first input of the sixth element OR the output of which is connected to the input of the start of the sixth random time intervals, the output of which through seventh differentiating element connected to the first direct input of the sixth element And with a second input of the fifth element And whose output is connected to the second input of the second element OR the input set to "0" fifth trigger, the third input of the third and fifth elements And connected to the single output of the first trigger, single output of the second trigger is connected to the inverted inputs of the sixth and seventh elements, And through the eighth differentiating element to the first direct input of the seventh element, And the output of which is connected to a second input of the sixth element OR the second direct the e inputs of the sixth and seventh elements And is connected to the single output of the first trigger, the output of the sixth element And is connected to the input of the start of the seventh random time intervals, the output of which is connected through ninth differentiating element to the input of the start of the eighth random time intervals, the output of which is connected through tenth differentiating element to the input of the start of the second random number generator, the first and second outputs of which are connected to first and second inputs of the second decoder, respectively, the first output of which is connected to the input set to "1" the fourth flip-flop, the second input of the fifth and the first input of the seventh element OR the second output of the second decoder is connected with the input set to "1" of the sixth trigger input the second delay element and a second input of the seventh element OR the output of which is connected to the stop input of the second random number generator, the output of the fifth element OR is connected with the input set to "0" sixth trigger, single output of which is connected to the first input of the fourth element And a second input connected to the output of the second delay element, and a third input which is connected to a single output of the first flip-flop, the output of the fourth element And connected to the third input of the sixth element OR the output of the second differentiating element of the device is connected to the input of the first generator occasionally the x time intervals of conduction block sessions, the output of the first element OR block of sessions connected to the second input of the first element OR the input set to "0" of the third trigger device.

Comparative analysis with the prototype shows that the claimed device has additionally introduced a block of sessions containing eight generators of the random time intervals, ten differentiating elements, six triggers, seven members And seven members OR two delay elements, two random number generator and two decoder, and the corresponding functional relationships with other elements of the device that meets the criterion of novelty.

The search for technical solutions in scientific and technical literature and related areas of technology not identified solutions that have the signs consistent with the distinctive features of the claimed invention that meets the criterion of inventive step.

Figure 1 shows the structural diagram of the device, figure 2 shows the structural block circuit diagram of sessions.

The device comprises a generator 1 single pulse (orders), the second 2 trigger 3 third differentiating element, the first 4 random intervals transportation (movement), the fourth 5 differentiating element, the generator b random time intervals of connecting the Oia, fifth 7 differentiating element, the first 8 element OR the first 9 trigger generator 10 random stream of pulses, simulating the receipt of bids in a land-based mobile measuring system for conducting sessions, the first element 11 And the first 12 differentiating element, the generator 13 random intervals training, 14 second differentiating element, block 15 sessions, the generator 16 random intervals clotting time, the seventh 17 differentiating element, the second 18 random intervals transportation, eighth 19 differentiating element, the second element 20 OR 21 second element And the third 22 trigger, sixth 23 a differentiating element, the third element 24 And the block 15 sessions includes: the first 25 and second 26, 27 third, fourth, 28, 29 fifth, sixth, 30, 31 seventh and eighth 32 generators of random time intervals, the first 33 and second 34, third 35, 36 fourth, fifth, 37, 38 sixth, seventh 39, 40 eighth, ninth 41 and tenth 42 differentiating elements, the first 43 and second 44, 45 third, fourth, 46, 47 fifth and sixth 48 triggers the first 49, second 50, third 51, 52 fourth, fifth, 53, 54 sixth and seventh 55 elements And the first 56, 57 second, third, 58, 59 fourth, fifth, 60, 61 sixth and seventh elements 62 OR the first 63 and second 64 random number generators, the first 65, 66 second decoders, the first 67 and second 68 cell battery (included) which you delay, input 69 and the output 70 of the block of sessions.

Generator 1 generates a single pulse on the first output of the command (order) for transportation, and on the second output command to collapse. Generator 10 generates a random stream of pulses that mimic the receipt of bids in a land-based mobile measuring system for conducting sessions. Generators 4, 6, 13, 16, 18, 25...28 form after you run a single pulse with a random duration, the corresponding random time distributed according to the laws changes time spent terrestrial mobile measuring system in the considered modes.

In the device output 1 generator 1 is connected with the input set to "1" trigger 2, the input set to "0" which is connected to the output of the differentiating element 19, and a single output which is connected through a differentiating element 3 with the starting of the generator 4, the output of which is connected through a differentiating element 5 with the starting of the generator 6, the output of which through a differentiating element 7 is connected to the first input of the OR element 8 and the input of the start of the generator 10, the stop input of which is connected to the second input of the generator 1, the direct input element I and the second input element I, the output of which connected to the first input element ILI, the output of which is connected to the input of the running generators, the Torah 16, the output of which is connected through a differentiating element 17 to the input of the start of the generator 18, the output of which is connected through a differentiating element 19 with the input set to "0" trigger 2. The output element I connected with the input set to "1" trigger 22, the single output of which is connected through a differentiating element 23 with the second input element ILI. The output of generator 10 is connected to a second input element I, the output of which is connected to the input set to "0" of the trigger 9, the input set to "1" which is connected to the output element ILI, and the single output of which is connected to the first input element I, with inverse input element I and the first input element I, and through a differentiating element 12 with the input of the start of the generator 13, the output of which through a differentiating element 14 is connected to the input of the start of the generator 25 of the block 15.

The output of generator 25 is connected through a differentiating element 33 with the first input element ILI, and through a differentiating element 34 with the input set to "1" trigger 43 and the input of the start of the generator 26, the output of which is connected through a differentiating element 35 to the first input element I, a second input connected to a single trigger output 43, the output element E connected to the first input element ILI, the output of which is connected to the input of the start of the generator 27, the output of which is connected through di is francileudo element 36 to the input of the start of the generator 28, the output of which through a differentiating element 37 is connected to the input of the first random number generator 63, the first and second outputs of which are connected to first and second inputs of the first decoder 65, respectively, the first and second outputs of which are connected to first and second inputs of the element ILI accordingly, the output of which is connected to the stop input of the generator 63, the first output of the decoder 65 is also connected with the input set to "1" trigger 44 and the input of the start of the generator 29, the output of which through a differentiating element 38 is connected to the input set to "0" trigger 44 and the input set to "1" the trigger 45, the isolated yield of the latter is connected to the first input element 50, the second input is connected to a single trigger output 43, and the output of which is connected to a second input element ILI and the first input element ILI, inputs shutdown of the generators 25 and 26 and the input set to "0" of the trigger 46, the single output of which is connected to the third input element 50 whose output is also connected through the first input element ILI to the input set to "0" of the trigger 45, the second input element ILI connected to the input set to "0" trigger 43 and the output item ILI, the second output of the decoder 65 is connected with the input set to "1" trigger 47 and through a delay element 67 to the first input element 51, the second input is connected to dinochrome the trigger output is 47, the first input elements I, the output element 51 connected to the first input element ILI, the output of which is connected to the input of the start of the generator 30, the output of which through a differentiating element 39 is connected to the first direct input element I, with the second input element I, the output of which is connected to the second input element ILI and the input set to "0" trigger 47, the third input elements 51, I connected to a single trigger output 43, single trigger output 44 is connected to the inverted inputs of the And elements I, I, and through a differentiating element 40 to the first direct input element I whose output is connected to a second input element ILI, the second direct inputs elements I, I connected to a single trigger output 43, the output element E connected to the input of the start of the generator 31, the output of which is connected through a differentiating element 41 to the input of the start of the generator 32, the output of which is connected through a differentiating element 42 to the input of the start of the generator 64, the first and second outputs of which are connected to first and second inputs of the decoder 66, respectively, the first output of which is connected to the input set to "1" trigger 46, the second input element ILI and the first input element ILI, the second the output of the decoder 66 is connected with the input set to "1" trigger 48, the input of the delay element 68 and a second input element ILI, the output of which is connected to the stop input of the generator 64, the output element ILI connected with the input set to "0" trigger 48, the single output of which is connected to the first input element I, a second input connected to the output of the delay element 68, and a third input which is connected to a single trigger output 43, the output element I connected to the third input element ILI, the output of the differentiating element 14 of the device connected to the input of the start of the generator 25 block of sessions, the output element ILI block of sessions connected to the second input element ILI and the input set to "0" of the trigger 22 of the device.

The device simulates the functioning of terrestrial mobile measurement system (NMIC)conducting sessions with the aircraft outside the place of permanent residence and having the next cycle of use. After receiving the order (command), NMIC transported (moves) to the venue of the sessions with the aircraft (LA). Upon arrival, NMIC unfolds and takes the initial state expects the application to conduct sessions. At the same time in NMIC can be no more than one application. Another request for a session translates NMIC mode of preparation for the session, after which starts the session, including reception from LA, formation and memorization of the complete data frame (the IR), playing PEAK, form a reduced data frame (SIC), mapping and analysis of SIC, the separate transmission of SIC and PIC and analysis of the quality of the transmission PEAK. At the end of the session NMIC again enters the standby mode and the session continues. When forming, display and analysis of SIC and PIC possible quality or poor conduct. Having received the instruction (command) to the end of the work, NMIC coils (if NMIC have a session, it is), and then transported (moves) to the place of permanent residence or in another place. Obtaining the following command NMIC transported to a new place of sessions, repeating the above described cycle of operation. Processes functioning NMIC start at random points in time and occur at random intervals, distributed according to different laws.

The task of the device is as follows. Modeling using the device processes functioning of terrestrial mobile measuring system in operation for various distribution laws of random time intervals of their course taking into account the dynamics and specifics of their application and calculating the statistical characteristics of these processes on the counter, connected to various ele is entam device, you can evaluate a variety of probabilistic-temporal statistics, and to explore the impact of the basic operational characteristics of terrestrial mobile measuring system taking into account the dynamics and peculiarities of their functioning, to justify their requirements and to recommend ways to ensure.

The device operates as follows. In the initial state, the trigger 9 is installed in a position in which the first inputs of the elements I, I, I allow no voltage, triggers, 2, 23 is set in a position in which their individual outputs no enabling voltage, the trigger 43 is installed in a position in which there is not an allow the voltage on the second input elements I, 50, 51, I, I, I, I, the trigger 44 is installed in a position in which the inverse of the input elements And 54. I is allowing voltage, triggers, 45, 46 mounted in a position in which the first and third inputs of the element I50, respectively, allow no voltage, the trigger 47 is installed in a position in which the second direct input element 51, the first input element I missing, and on the inverse of the input element I is present to allow the voltage, the trigger 48 is installed in a position in which the first direct input element I missing, and inv is rnom the input element 51 is present to allow the voltage. The generators of the device is not running.

After switching on the device triggers are set in the initial state, then the device operates as follows. Signal (instruction) from the first output of the generator 1 converts the trigger 2 in one state, while the output of the differentiating element 3 you receive a positive pulse which starts the generator 4 that generates the random pulse duration, adequate transportation times (motion), after which (arrival NMIC on location sessions) from the differentiating element 5 starts the generator 6, forming the random pulse duration, adequate deployment time NMIC, after which from the differentiating element 7 starts the generator 10 that generates a random stream of pulses, simulating the receipt of bids to conduct sessions with LA, and through the first input element ILI translates the trigger 9 in one state, simulating the standby mode, and the elements I, I, I opened by the first inputs. After a certain time interval generator 10 starts to generate a random stream of pulses, simulating the receipt of bids to conduct sessions with LA. The pulse appearing at the output of the generator 10 passes through the second open item I and translates the trigger 9 in the initial state of the differentiating element 12 starts the generator 13, forming a random pulse duration, adequate preparation time NMIC. At the end of interval training from the differentiating element 14 is started in block 15 (entry 69) generator 25 that generates the random pulse duration, adequate time session with LA. From the differentiating element 34 (on the leading edge of the pulse generator 25 is translated into a single state of the trigger 43 and starts the generator 26 that generates the random pulse duration, adequate time for receiving, generating and storing a complete data frame from LA. From the differentiating element 35 (trailing edge pulse generator 26), the pulse passes through the first open item I and element ILI and starts the generator 27 that generates the random pulse duration, adequate time of forming a reduced information frame.

From the differentiating element 36 (trailing edge pulse generator 27) pulse starts the generator 28 that generates the random pulse duration, adequate time display and analysis of reduced data frame (SIC). From the differentiating element 37 (trailing edge pulse generator 28) pulse starts the generator 63, which forms depending on the quality of the display and analysis of the SIC uti is icy on the first (qualitative SIC) or the second (low-quality SIC) outputs.

1. Suppose the pulse appeared at the first output of the generator 63 (i.e. quality SIC), then he, having passed through the first input and first output of the decoder 65, takes the trigger 44 in one state, through the element ILI to the stop input of the generator 63 and run the generator 29 that generates a random pulse duration, adequate transmission time of the SIQ. From the differentiating element 38 (trailing edge pulse generator 29) momentum transfers the trigger 45 in one state, the trigger 44 to its original state.

2. If the pulse appeared on the second output of the generator 63 (i.e. SIC poor), then he, having passed through the second input and second output of the decoder 65, takes the trigger 47 in one state, through the element ILI to the stop input of the generator 63 and through a delay element 67, outdoor element 51 and the element ILI and will start the generator 30 that generates a random pulse duration, adequate play time information of the frame (PIC). From the differentiating element 39 (trailing edge pulse generator 30) pulse passes through the opened item I and is supplied to the input set to "0" trigger 47, translating it to its original state, and through the second input element ILI to the input of the start of the generator 27. Next, the device is similar to item 1.

If the session does not have ALOS to obtain high-quality SIC, at the end of the pulse at the output of generator 25 a differentiating element 33 generates a pulse which is fed to the first input element ILI and translates the trigger 43 to its original state, and also to the second input element ILI, translating the trigger 9 in one state, thereby simulating the transition NMIC in standby mode. If the first generator output 1 appears impulse, then the device operates as previously described.

If you have implemented the transfer of high-quality SIC that simulates the appearance at the output of the generator 29 random pulse duration, the output of the differentiating element 38 (on the trailing edge of the pulse from generator 29) pulse appears, which translates the trigger 44 in the initial state, and by opening the inverse of the input elements I, I, pulse appearing at the output of the differentiating element 40 passes through the elements I, ILI and starts the generator 30 that generates a random pulse duration, adequate play time PEAK. From the differentiating element 39 (trailing edge pulse generator 30) pulse through the open element I starts the generator 31 that generates the random pulse duration, adequate time transmission PEAK. From the differentiating element 41 (trailing edge pulse generator 31) pulse starts the generator 32 that generates them is the random pulse duration, adequate time analysis of the quality of the transmission PEAK.

From the differentiating element 42 (trailing edge pulse generator 32) pulse starts the generator 64, which forms depending on the quality of the transmission PEAK of the pulses on the first (qualitative PIC) or second (poor PEAK) output.

3. Suppose the pulse appeared on the first generator output 64 (i.e. the PEAK of quality), then he, having passed through the first input-output decoder 66, takes the trigger 46 in one state, through the element ILI to the stop input of the generator 64 and opens the element 50, and the pulse from its output will stop the generators 25 and 26 and will trigger 46, and through the element ELI and the trigger 45 in its original state, and, passing the element ELI, will set the trigger 43 to its original state and will go to the second input element ILI (through the output 70 of the block 15), which corresponds to the standby mode. Next, the operation of the device is similar to the above.

4. If the pulse appeared on the second output of the generator 64 (i.e. the PEAK of the poor), then he, having passed through the second input-output decoder 66, takes the trigger 48 in one state, through the element ILI to the stop input of the generator 64 and through a delay element 68, outdoor element I and element ILI and will start the generator 30 that generates a random pulse duration, adequate time is play full information frame (PEAK). From the differentiating element 39 (trailing edge pulse generator 30) pulse passes through the opened item I (element I is closed on the first input from the trigger 47) to the input of the start of the generator 31. Next, the device is similar to item 3.

If after re-transmission (in addition to poor PEAK) appears again the pulse at the second output of the generator 64, the operation of the device is repeated, as described in paragraph 4. If after re-transmission (in addition to poor PEAK appears in the pulse at the first output of the generator 64, the operation of the device is as described in paragraph 4. When the pulse from the first output of the decoder 66 moves through the element ELI the trigger 48 to its original state.

If during the session failed to get a quality PIC, then at the end of the pulse at the output of the generator 25 a differentiating element 33 generates a pulse which is fed to the first input element ILI and translates the trigger 43 to its original state, closing elements I, 50, 51, I, I, I, I, and also to the second input element ILI, translating the trigger 9 in one state, thereby simulating the transition NMIC in standby mode. If the first generator output 1 appears impulse, then the device operates in the above-described scheme.

The pulse at the end of functioning is of NMIC with the second output of the generator 1 in the absence of requests for a session with LA enters through the opened item I and element ILI to the input of the start of the generator 16, forming a random pulse duration, adequate clotting time NMIC. At the end of the interval clotting time pulse from the differentiating element 17 starts the generator 18 that generates the random pulse duration, adequate transportation times NMIC. At the end of the time interval of transportation (arrival at the place of permanent residence) pulse from the differentiating element 19 sets the trigger 2 in the zero state, thereby preparing NMIC to the new extension at the venue of the sessions LA.

If an application in NMIC on the session, the pulse at the end of the operation with the second output of the generator 1 through the opened item I sets the trigger 22 in one state, at the end of the session the pulse from the output element ILI unit 15 sets the trigger 22 in the zero state, and the pulse from the differentiating element 23 through the element OR 20 starts the generator 16 random intervals clotting time NMIC. Further, the device operates similarly to the above description.

Statistical characteristics of the processes of functioning of terrestrial mobile measuring system taking into account the dynamics and specifics of their application can be determined by meter readings that are connected to various elements of the device. Polucen the e statistical characteristics for different distribution laws of random time intervals of the processes of functioning of terrestrial mobile measurement systems taking into account the dynamics and specifics of their application allow to solve problems of estimation, prediction and provide probability-time characteristics of operational properties (e.g., efficiency, availability, reliability, speed of information delivery and other) as on the stages of development of new improvement and operation of modern mobile measurement systems.

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

The device for simulation of processes of functioning of terrestrial mobile measuring system during operation, comprising a generator of single pulses, the first and second elements OR first, second and third triggers, from the first to the eighth differentiating elements, the random time intervals training, random intervals clotting time, a random stream of pulses, the random time intervals deployment, from first to third elements, the first and second generators of the random time intervals transportation, and the output of the first element OR is connected to the input set to "1" of the first trigger, the single output of which is connected with the first inputs of the first and the third and the inverted input of the second element And to the input of the first differential element, the output to the which is connected to the input of the start of the random intervals of time training, the output of which is connected to the input of the second differential element, the generator output random stream of pulses is connected to the second input of the first element And whose output is connected with the input set to "0" of the first trigger, the first generator output single pulses connected to the input set to "1" of the second trigger unit the output of which through the third differentiating element is connected to the input of the first random time intervals transportation, the output of which through the fourth differentiating element is connected to the input of the start of the random time intervals deployment, the output of which is connected through the fifth differentiating element to the first input of the first element, OR with a the starting random stream of pulses, the stop input of which is connected to the second generator output single pulses and direct input of the second and the second input of the third elements, And the output of the second element And is connected to the input set to "1" of the third trigger, the output of the third element And connected to the first input of the second element, OR a single output of the third trigger is connected through sixth differentiating element with the second input of the second element OR the output of which is connected to the input of the starting random intervals clotting time, the output of which is via the seventh differentiating element is connected to the input of the start of the second random time intervals transportation, the output of which is connected through eighth differentiating element to the input set to "0" of the second trigger, wherein the entered block of sessions, including the first to the eighth generation of random time intervals from the first to the tenth differentiating elements one through six triggers, with the first seven elements And, with the first seven elements OR the first and second delay elements, the first and second random number generators, the first and second decoders, and the output of the first random time intervals connected through the first differentiating element to the first input of the first element OR and through the second differentiating element with the input set to "1" the first flip-flop and the input of the start of the second random time intervals, the output of which is connected through the third differentiating element to the first input of the first element And a second input connected to the single output of the first flip-flop, the output of the first element And connected to the first input of the second element OR the output of which is connected to the input of the start of the third random time intervals, the output of which is connected through a fourth differentiating element to the input of the start of the fourth random time intervals, the output of which through fifth differentiating elementcontent with the input of the first random number generator, the first and second outputs of which are connected to first and second inputs of the first decoder, respectively, the first and second outputs of which are connected to first and second inputs of the third element OR, respectively, the output of which is connected to the stop input of the first random number generator, the first output of the first decoder is also connected with the input set to "1" of the second trigger and the input of the start of the fifth random time intervals, the output of which through sixth differentiating element is connected to the input set to "0" of the second and input set to "1" of the third trigger, single output of the latter is connected to the first input of the second element And, the second input is connected to a single output of the first flip-flop, and the output of which is connected to a second input of the first and the first input of the fifth element OR the input of the stop of the first and second generators of the random time intervals and input set to "0" the fourth flip-flop, single output of which is connected to the third input of the second element And whose output is also connected through the first input of the fourth element OR inputs installed in the "0" of the third trigger, the second input of the fourth element OR is connected to the input set to "0" the first flip-flop and the output of the first element OR the second output the first decoder is connected with the input set to "1"the fifth trigger and through the first delay element to the first input of the third element And the second input is connected to a single output of the fifth trigger, the first input of the fifth element And the output of the third element And connected to the first input of the sixth element OR the output of which is connected to the input of the start of the sixth random time intervals, the output of which through seventh differentiating element connected to the first direct input of the sixth element And with a second input of the fifth element And whose output is connected to the second input of the second element OR the input set to "0" fifth trigger, the third input of the third and fifth elements And connected to the single output of the first trigger, single output of the second trigger connected to the inverted inputs of the sixth and seventh elements, And through the eighth differentiating element to the first direct input of the seventh element And whose output is connected to a second input of the sixth element OR the second direct inputs of the sixth and seventh elements And is connected to the single output of the first flip-flop, the output of the sixth element And is connected to the input of the start of the seventh random time intervals, the output of which is connected through ninth differentiating element to the input of the start of the eighth random time intervals, the output of which is connected through tenth differentiating element to the input of the start of the second random number generator, the first and the WTO is the second outputs of which are connected with the first and second inputs of the second decoder, respectively, the first output of which is connected to the input set to "1" the fourth flip-flop, the second input of the fifth and the first input of the seventh element OR the second output of the second decoder is connected with the input set to "1" of the sixth trigger input of the second delay element and a second input of the seventh element OR the output of which is connected to the stop input of the second random number generator, the output of the fifth element OR is connected with the input set to "0" sixth trigger, single output of which is connected to the first input of the fourth element And a second input connected to the output of the second delay element, and the third the inlet of which is connected to a single output of the first flip-flop, the output of the fourth element And connected to the third input of the sixth element OR the output of the second differentiating element of the device is connected to the input of the first random time intervals of conduction block of sessions, the output of the first element OR block of sessions connected to the second input of the first element OR the input set to "0" of the third trigger device.



 

Same patents:

FIELD: access control systems, ATMs.

SUBSTANCE: controller has control signals generator, state analyzer, signals detector, executive device, state indicator.

EFFECT: simplified construction, higher efficiency.

3 dwg

FIELD: access control technologies.

SUBSTANCE: system for controlling information concerning subscribers for use with broadcast system, providing phone services and internet services to subscriber, includes means for storing subscribers parameters, having relation to subscription of current subscriber for television services (B-parameters), and means for storing internet-parameters of subscribers, related to subscription of current subscriber for internet services, while this system for controlling information is different because said internet parameters and B-parameters are interconnected and it also has means for allowing internet access to subscriber with certain B-parameters.

EFFECT: facilitated processing of subscribers parameters.

2 cl, 6 dwg

FIELD: telecommunication systems and methods for global network access.

SUBSTANCE: proposed system has station that provides for meeting specified regulations concerning authentication of subscribers, authorization of access and services, accounting of network resources, and mobility. These specified regulations are determined by Internet service provider at decision station concerning specified regulations which is, essentially, server connected to Internet that communicates with mentioned providing station. Internet service provider may be made in the form of encryption key for given providing station and encryption key for particular subscriber.

EFFECT: enlarged functional capabilities.

33 cl, 4 dwg

FIELD: ATMs.

SUBSTANCE: device has devices for performing banking operations, visual displaying devices, data input devices, software applications and documents, while ATM outputs user interface via visual displaying device, located at the front, and also outputs user interface, meant for technical service, via visual displaying device, positioned at the back.

EFFECT: higher reliability, higher trustworthiness.

13 cl, 11 dwg

FIELD: electronic financial transactions.

SUBSTANCE: method includes receiving request for transaction from user to server, generating response to user, receiving answer from user, based on response, after that said response is processed and user is checked. Then transaction authentications are performed, using at least one key, and at least portion of said authentication documents are sent to user. Then repeated query from user is received, which has portion of authentication documents mentioned above, and it is checked by said key to provide access to transaction service.

EFFECT: higher reliability and trustworthiness.

7 cl, 16 dwg

FIELD: trading.

SUBSTANCE: method includes controlling movement of trade goods flow via trade goods flow control system. Goods sold in the complex are categorized in trade groups on basis of given criterion, to each trade group a terminal, loading bay and goods demonstration sector are assigned. During delivery of goods to complex route of movement of each type of goods is determined with note of terminal, loading bay and goods demonstration sector. Delivered goods through terminal assigned to current goods type are loaded into assigned loading bay and positioned in assigned sectors for goods demonstration. Trade goods flow control system has control implements and computer, connected to control implements and containing controlling software module, database of names of goods sold in trade complex, while controlling software is made with possible assigning of a terminal for delivery of each goods type in database and determining its movement route with note of terminal, loading bay and goods demonstration sector.

EFFECT: simplified control, lower costs, lower losses due to thefts.

2 cl, 3 dwg

FIELD: software and hardware means for financial operations.

SUBSTANCE: machine has computer and multiple operation functional devices, multiple driver components, corresponding o said functional devices. Drivers operate reacting on communication of XFS level, for controlling operation of operation function devices. Machine includes terminal application and level of services of open devices, containing multiple components, appropriate for drivers and reacting on terminal application, providing for control fop operational function devices on the side of drivers by connecting to level XFS.

EFFECT: higher efficiency.

2 cl, 4 dwg

FIELD: communication networks.

SUBSTANCE: method has stages: registering client inputs domain name at native language into computer, which includes at least one non alphabetic-digital symbol, conversion of each such symbol in computer to at least one corresponding symbol to produce wholly alphabetic-digital domain name, registering resulting name in computer of authorized registering operator.

EFFECT: higher efficiency.

3 cl, 6 dwg, 1 tbl

FIELD: financial transactions.

SUBSTANCE: system provided structured protocol for trading, according to which offers about purchasing or selling can be inputted into system or erased from it, participants can reconsider their offers, dependently on trades state. Workstations of users maintain connection to central server. Access to trading activity is performed via communication sever and remote server.

EFFECT: broader functional capabilities.

12 cl, 12 dwg

FIELD: computers, finance.

SUBSTANCE: method includes receiving data from user concerning certain active, minimal value of change, current percent stake without risk of non-payment, difference between prices of certain active during its quotation and required guarantee payment for certain active. Derivative for each variable of derivative calculation algorithm is set, variable price of realization with value of current price of certain active, variable price of execution with value of execution price. Difference between trade price of contract and final closing price is determined. Data about said difference is sent to user, which difference is subject to distribution. Difference between execution price and current price of certain active is determined and data is sent to user concerning said difference, being subject to distribution.

EFFECT: higher precision.

7 cl

FIELD: the invention refers to the technique of detection of a target and determination of the direction at a target.

SUBSTANCE: the mode is realized by way of receiving of ultra wideband impulses reflected from the target, of delaying them on various time multitude in various channels of surveillance and multi channel processing. In the first variant of the current mode variation of the form of receiving impulses on a great number of discrete time positions are carried out by way of averaging-out by channels of surveillance at known direction of incoming reflected impulses in a beforehand designed control sector and then found valuation of the form of receiving impulse is used as a base signal in multi channel correlation processing. In the second variant valuation of magnitude of receiving impulse is formed in concrete moment of time for each base direction in beforehand given angular sector of control, valuation of the form of the receiving impulse is found according to formed valuations of magnitude 0f the receiving signal for various discrete moments of time; found valuation of receiving impulse is used as a base signal in multi channel correlation processing; out of multitude of results of correlation processing correlation maximum is chosen. This maximum is used as preliminary threshold decision statistics in the procedure of detection of the target; the direction of incoming reflected impulses with the help of interpolating valuation of the position of the correlation maximum in the environs of that base direction for which the largest result of multi channel correlation processing.

EFFECT: the use of this invention at location of a target with the help of ultra wideband impulses allows to receive signals incoming not only from in advance chosen base directions.

6 cl,9 dwg

FIELD: access control systems, ATMs.

SUBSTANCE: controller has control signals generator, state analyzer, signals detector, executive device, state indicator.

EFFECT: simplified construction, higher efficiency.

3 dwg

FIELD: access control technologies.

SUBSTANCE: system for controlling information concerning subscribers for use with broadcast system, providing phone services and internet services to subscriber, includes means for storing subscribers parameters, having relation to subscription of current subscriber for television services (B-parameters), and means for storing internet-parameters of subscribers, related to subscription of current subscriber for internet services, while this system for controlling information is different because said internet parameters and B-parameters are interconnected and it also has means for allowing internet access to subscriber with certain B-parameters.

EFFECT: facilitated processing of subscribers parameters.

2 cl, 6 dwg

FIELD: computer science.

SUBSTANCE: system has generator of unique data blocks identifiers, means for forming relation database tables, means for forming a catalogue in form of a table or a set of relation database tables, converter for commands of input, search, extraction and adding of appropriate data block defined by attribute name to command of input, search, etc. of the relation database table, name of which is related to name of said attribute, controlling device is made with possible conversion of commands with attributes to command with relation database table name.

EFFECT: concurrent use of databases describing objects in sample area and also relation databases.

1 dwg, 4 tbl

FIELD: technology for automated synthesis of text documents.

SUBSTANCE: method includes, in data variable, selecting variable unified information (common word combinations), variable inputted data (details), and variable non-unified information (free word combinations), while variable unified information is separated as a plurality of support words, constituting lexicological document skeleton, and is recorded in machine-readable database, lexicological document tree is formed and data document control contour is formed, and during generation of document, all branches of formed lexicological document tree are passed to select necessary support words for inserting matching word combinations into generated document.

EFFECT: lower probability of errors, lower laboriousness.

3 cl, 7 dwg

FIELD: computer science.

SUBSTANCE: device has ADC, address multiplexer, adder, AND element, OR element, two memory blocks, quality control block, division block, indication block, count number counter, reverse counter, control block, quality control block.

EFFECT: measurement of two-dimensional distribution of random process with given quality in minimal time due to quality control during measurement of distribution and finish of measurement, if quality criterion is lower than preset value.

2 cl, 2 dwg

FIELD: telecommunication systems and methods for global network access.

SUBSTANCE: proposed system has station that provides for meeting specified regulations concerning authentication of subscribers, authorization of access and services, accounting of network resources, and mobility. These specified regulations are determined by Internet service provider at decision station concerning specified regulations which is, essentially, server connected to Internet that communicates with mentioned providing station. Internet service provider may be made in the form of encryption key for given providing station and encryption key for particular subscriber.

EFFECT: enlarged functional capabilities.

33 cl, 4 dwg

FIELD: ATMs.

SUBSTANCE: device has devices for performing banking operations, visual displaying devices, data input devices, software applications and documents, while ATM outputs user interface via visual displaying device, located at the front, and also outputs user interface, meant for technical service, via visual displaying device, positioned at the back.

EFFECT: higher reliability, higher trustworthiness.

13 cl, 11 dwg

FIELD: computer science.

SUBSTANCE: device has buffer memory register, pulse generator, switches, register, commutators, pulse counter, inversions number counter, comparison circuit, AND elements group, subtraction elements group, scale amplifiers group, adders group, delay elements groups, delay elements, cycles counter, OR elements group, reverse value computation blocks group, square-ware generators group.

EFFECT: higher precision.

1 dwg

FIELD: electronic financial transactions.

SUBSTANCE: method includes receiving request for transaction from user to server, generating response to user, receiving answer from user, based on response, after that said response is processed and user is checked. Then transaction authentications are performed, using at least one key, and at least portion of said authentication documents are sent to user. Then repeated query from user is received, which has portion of authentication documents mentioned above, and it is checked by said key to provide access to transaction service.

EFFECT: higher reliability and trustworthiness.

7 cl, 16 dwg

FIELD: formation of payment documents.

SUBSTANCE: the information meaningful for the payment document is introduced in the computer of the financial settlements and check-out center, the payment document is formed in the form a text and the first dot-and-dash code line and introduced in the electronic data base, the document is displayed for payment to the payer, the payer introduces the information on the quantity of consumed resources and the sum of payments to the document according to the acting tariff rates, these data are introduced in the cash register of the payment reception center with the date of payment, types and sums of payments, these data and the second dot-and-dash code line with these data on the document are represented by means of the cash register, it is sent to the financial settlements and check-out center, the first and second dot-and-dash code lines are read out, the information is compared with the electronic base, entered together with the information on reception of the payment in its electronic data base.

EFFECT: automated formation of documents with due account made for payments determined by the floor space, quantity of people living there and the quantity of the consumed resources.

8 cl, 1 dwg

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