SU807338A1 - Statistical analyzer - Google Patents

Description

(54) STATISTICAL ANALYZER

This invention relates to specialized computer aids intended for analyzing random processes.

A device is known which includes an analog-to-discrete converter, a channel switch, a poll generator, a control unit and accumulating counters, or an on-line memory, which allows one to obtain histograms of the distribution of random variables over time.

The closest in technical essence to the present invention is a statistical analyzer comprising an input voltage of the analyzed voltage, a comparison circuit, counters, a channel switch, a reference voltage generation unit, a control unit, an additional counter of the number of reference voltage exceeding, trigger and element I. The measured voltage is measured at the time determined by the control unit, which includes a clock generator. The overflow trigger entered into the device reduces information losses associated with calibration errors of the 2D formation pressure unit.

The disadvantage of this statistical analyzer is the inability to obtain the conditional characteristics of the distribution of random variables relative to the values of another

random process and low reliability of the information obtained, since the total number of measurements taken is not recorded and after conducting the study, all is unknown

Whether measurements are registered.

The purpose of the invention is to expand the functionality by obtaining the conditional characteristics of the distribution of values relative to

values of another random process and increase the reliability of the information obtained.

Claims (2)

The goal is achieved by the fact that a statistical analyzer containing an AND element whose output is connected to an accumulating counter of the number of overflows, and an information input is connected to the first trigger output, a polling generator, an analog-to-discrete converter whose input is the first input of the analyzer, and the output connected to the first input of the pulse shaping device of the process under study, the second input of which is with the second input of the analyzer, and the output is connected to the information input of the counter, which controls the input The second is connected to the first output of the control unit and to the control input of the trigger, the second output of which is connected to the third input of the pulse former of the process under investigation, and the counting input of the trigger is connected to the first output of the counter, the second input of which is connected to the information input of the decoder, the outputs of which are connected to the corresponding output accumulator counters, external synchronization pulse driver, counter-divider, accumulator of the number of measurements, accumulator, external synchronization control unit The accumulator counts the number of external synchronization signals, the input of which is connected by the first output of the external synchronization pulse generator, the input of which is the third input of the analyzer and the second output is connected to the first input of the external synchronization control unit, the second input of which is connected to the fourth input of the pulse former of the process being studied and with the second output of the control unit, the third output of which is connected to the accumulated counter by the number of measurements, with the control inputs deshi and the element And, the first output of the control unit is connected to the output of the polling generator, the input of which is connected to the first output of the external synchronization control unit, the second output of which is connected to the input of the counter-divider, the output of which is connected to the second input of the control unit. The block diagram of the statistical analyzer is shown in the drawing. The statistical analyzer contains an analog-to-discrete transducer, shaper 2 pulses of the process under study, counter 3, decoder 4 accumulating counters 5, trigger 6, element I 7, accumulating overflow counter 8, accumulating counts (Ticket 9 of the number of measurements taken, poll generator 10, block 11 controllers, driver of external synchronization pulses 12, external synchronization control unit 13, counter-divider 14, and accumulating counter 15 of the number of external synchronization signals Analog-discrete converter 1 pr It converts the signal of the investigated continuous process into the frequency of tracking discrete signals.The shaper of the process under study converts the signals of the studied discrete process or signals from the output of the analog-discrete converter 1 into pulses of the required amplitude and duration. Counter 3 converts the pulses from Shaper 2. The recalculation factor is equal to the number of accumulating counters 5. Shaping 4, gated by the signal from oscillator 1a 10, sets each accumulator 3 to the state a1svdy counter 5. At nakaplivakydih counters 5 formed characteristic distribution of the test process. The trigger 6 is set to one when the counter overflows 3. The element And 7 controls the recording of the number of overflows on the accumulation of the counter 8. The accumulating counter 9 stores information about the total number of measurements taken. The polling generator 10 generates periodic pulses with a desired frequency. The control unit 11 generates from each pulse 10 received from the generator a sequence of control signals determining the order of measuring and recording its results,. The external synchronization pulse generator 12 converts the incoming external synchronization signals into pulses of the required amplitude and duration. The external synchronization control unit 13 determines the interaction of the generator 10, the control unit 11 and the former 12 when receiving the conditional characteristics of the process under study. A conditional distribution characteristic of the process under study will be obtained if the measurement is made using external synchronization signals. In this case, the block 13, having received the first pulse from the generator 12, blocks the arrival of periodic pulses from the generator 10 for the entire time it takes to obtain the conditional characteristic. The external synchronization signal passes to block 11 through the circuit: driver 12, block 13, counter-divider 14 and determines the beginning of the measurement instead of a pulse from the generator 10. Block 11 works the same way as when measuring the signal under investigation over time. At the same time, the passage through the block 13 of subsequent external synchronization signals is prohibited for the measurement time, but the accumulator 15 accumulates the total external synchronization signals into the statistical analyzer. The expansion of the functionality of the statistical analyzer is achieved by the introduction of an external synchronization pulse generator, an external synchronization control unit, and a divider counter. This ensures the operation of the statistical analyzer according to one of the following programs: 1. Processing the discrete signal under study over time. 2. Processing of a continuous investigated signal on time. 3. Processing of a discrete signal under study on an independent variable (signals of external synchronization). 4. Processing of the continuous, investigated signal on an independent variable. Improving the reliability of measurement results is achieved by introducing an accumulating counter for the number of measurements taken and accumulating a counter for the number of signals — in synchronization. At the same time, the total number of measurements should be equal to the sum of readings of all other accumulating counters. The counter-divider 14 has a variable, pre-set conversion factor, which will reduce the frequency of measurements, if necessary, when obtaining the conditional characteristics of the process under study. Accumulating counter 15 stores the number of external synchronization signals received by the statistical analyzer. In the initial state, the driver 2 and block 13 are ready to receive input signals, the counter 3 and the trigger 6 at zero. The measured continuous signal is fed to the transducer 1 and the driver 2 is removed. The measured discrete signal is fed to the driver 2 immediately. The process under study is represented by signals of the same type, continuous or discrete, From the output of shaper 2, the pulses go to counter 3. In the event of overflow of counter 3, trigger 6 is set to its single state and generates a control potential to driver 2, prohibiting signal conversion of the process under study . The generator 10 generates pulses that are applied to block 11 and determine the start of the measurement over time. At the same time, in the block 11, p control & 1 signals are sequentially generated: the inhibitory potential on the driver 2 and block 13} the registration pulse on the decoded 4, element 7, and the accumulating count 9} general reset signal. Consequently, shaper 2 stops the conversion of the signals of the process under study. The state of the accumulating counter 9 accumulating counter 8 is increased by one if trigger b is in single state and element 7 is triggered, as well as accumulating counter 5, the sequence number of which is determined by decoder 4. Counter 3 and trigger 6, driver 2 and block 13 are reset. This indicates that the results of all the measurements of the process under investigation are recorded. By knowing the total study time, you can calculate the average measurement frequency. The statistical analyzer as a measuring instrument is used to study the operating modes and diagnose car faults, determine Drivers' professional skills, the quality of road surfaces and many other factors that affect the operation of cars and traffic safety, and is also used as part of various statistical models and systems. The invention includes a statistical analyzer containing an AND element, the output of which is connected to the accumulation counter of the number of overflows, and an information input connected to the first output of the trigger, a polling generator, an analog-to-discrete converter, the input of which is the first input of the analyzer, and the output connected to the first input of the former pulses of the process being studied, the second input of which is the second input of the analyzer, and the output is connected to the information input of the reader, the control input of which is connected to The first output of the control unit and the control input of the trigger, the second output of which is connected to the third input of the pulse former of the process under study, and the counting input of the trigger is connected to the first output of the counter, the second input of which is connected to the information input of the decoder, which inputs are connected to accumulating counters, attributable to the fact that, in order to extend the functionality by obtaining the conditional characteristics of the distribution of quantities relative to the values of another random Processes and increasing the reliability of the information received, the analyzer comprises a pulse shaper external synchronization schetchikdelitel accumulating counter is the number of measurements, the control unit and the collecting external clock count of the number of external synchronization signals, whose input is connected to the first output of the external synchronization pulses, the input of which is the third input of the analyzer, and the second output is connected to the first input of the external synchronization control unit, the second input of which is connected to the fourth input of the pulse former of the process under study and to the second output of the control unit, the third output of which is connected to the accumulator count measurements, with the control inputs of the decoder and the element. At the same time, the first output of the control unit is connected to the output of the poll generator, the input of which is connected to the first output of the external synchronization control unit, the second output of which is connected to the input of the counter-divider, the output of which is connected to the second input of the control unit. Sources of information taken into account in the examination 1, USSR Author's Certificate No. 341049, cl. q 06 Q 7/52, 1974. 2. USSR author's certificate number 358967, cl. q 06 q 7/52, 1974. (prototype).