RU2746261C1 - Method and device for diagnosing the transmitting tract of the communication channel - Google Patents

Abstract

FIELD: radio engineering.

SUBSTANCE: invention relates to the field of radio engineering. The device contains a set of blocks for monitoring the parameters of the elements of the transmission channel of the communication channel, which are made with the ability to measure the average values of the parameters of the controlled elements of the transmission channel of the communication channel, each of which is connected in series with the unit for calculating the deviations of the measured parameters, the unit for normalizing the deviations of the measured parameters and the adder, the second information output of the test message generator is connected to the unit for storing the reference values of the complex parameter of the transmission path state, units for calculating and storing statistical characteristics and units for storing normalization coefficients, while the outputs of the units for calculating and storing statistical characteristics are connected to the corresponding units for calculating the deviations of the measured parameters, and the outputs of the units for storing the coefficients standardization are connected to the corresponding blocks for the normalization of deviations of the measured parameters, the outputs of the adder and the block for storing the reference values of the complex parameter of the state of the transmitting communication path are connected to the comparison unit, the output of which is connected to the user interface.

EFFECT: invention is aimed at increasing accuracy of determining the state of the transmission path of the communication channel.

10 cl, 1 dwg

Description

The invention relates to the field of radio engineering, in particular to monitoring the technical condition of elements of the transmission paths of communication channels. [H04B 3/46]

The communication network, as a rule, consists of communication channels and switching devices, as well as subscriber equipment for user access to network resources. At the same time, for effective management of information flows, it is necessary to accurately know the technical condition of the equipment elements of network devices and communication channels. To improve the availability of network and channel-forming equipment, it is necessary to timely identify and eliminate potential malfunctions of this equipment. Therefore, one of the important tasks of managing communication networks is the problem of diagnosing the state of network and channel-forming equipment.

Diagnostics of the communication channel as a whole is carried out on the basis of the analysis of the states of its constituent parts. At the same time, the parameters of operation of the main units of equipment, different in physical nature and functional purpose, are subject to analysis, which sometimes complicates the formation of a complex indicator of the state of the communication channel and its use when making decisions in a given situation.

Thus, the prior art known DEVICE FOR DIAGNOSTIC STATE OF EQUIPMENT OF DIGITAL TRANSMISSION SYSTEMS [SU 1734219 A1, publ. 05/15/1992], which implements a method for diagnosing the state of equipment of digital transmission systems, which consists in generating a test pseudo-random sequence with a duration of 158400 clock pulses and feeding it to the input of the transmitting path, transforming it according to the established signal conversion algorithm, then attenuating and mixing with a noise signal, switching to the input of the receiving path, its reverse transformation, the selection of the transmitted pseudo-random sequence at the output of the receiving path, its comparison with the original test by counting distorted pulses. According to a pre-established algorithm, when the permissible value of distorted pulses is exceeded N> M _add , where N is the number of distorted pulses, K _add is the permissible number of distorted pulses, the test pseudo-random sequence is retransmitted, while new ones can be introduced and (or) previously established transformation of the pseudo-random sequence, depending on the ratio of N and K _add , until the faulty unit of digital transmission systems equipment is determined.

Also known from the prior art is a METHOD AND DEVICE FOR DIAGNOSTIC STATE OF EQUIPMENT OF DIGITAL TRANSMISSION SYSTEMS [RU 2132594 C1, publ. 06/27/1999], which consists in forming a pseudo-random sequence, feeding it to the input of the transmitting path, transforming it according to the established signal conversion algorithm, then weakening and mixing it with the noise signal, switching to the input of the receiving path, transforming it inversely, extracting the restored pseudo-random sequence, in addition, the signals of the pseudo-random sequence F _i (t) are extracted after each of its i-th transformation, where F _i (t) is the selected pseudo-random sequence after the i-th transformation, i = 1, 2, 3, ..., R, R is the number of transformations of the pseudo-random sequence according to the established transformation algorithm.

The disadvantages of these analogs can be attributed to the low reliability of diagnosis due to the fact that the contribution to the assessment of the performance of individual elements of the communication system is not taken into account, and the diagnostic result depends on artificial additive noise, which is a random process.

The closest in technical essence is a METHOD FOR DIAGNOSING AND ENSURING TECHNICAL READY OF ELEMENTS OF COMMUNICATION NETWORKS [RU 2325031 C2, publ. 05/20/2008], which consists in forming a pseudo-random sequence, feeding it to the input of the transmitting path, transforming it according to the established signal conversion algorithm, then attenuating and mixing it with the noise signal, switching to the input of the receiving path, transforming it inversely, extracting the restored pseudo-random sequences, the signals of the pseudo-random sequence Fi (t) are extracted after each of its i-th transformation, where Fi (t) is the selected pseudo-random sequence after the i-th transformation, i = 1, 2, 3, ..., R, R is the number transformations of a pseudo-random sequence according to the established transformation algorithm, characterized in that a number of x _i parameters of the diagnosed equipment are extracted and calculated from the received information signal, where i = 1, 2, 3, ..., n is the number of parameters, the values of the square of the difference ( х _i -μ _i ) ² measured х _i and reference μ _i parameters of the diagnosed equipment, calculating the variances D (x) of the measured and D (μ) reference parameters of the diagnosed equipment are calculated, the value of the parameter r characterizing the technical condition of the diagnosed equipment is calculated, the values of the parameter r are compared with the reference value r _et , the technical condition of the communication network elements is determined from the results obtained, and the forecasting of the technical state of the elements of communication networks for a certain period of time is also carried out.

The main technical problem of the prototype is that a pseudo-random sequence is used as a reference (test) message, which does not take into account the peculiarity of the structure of transmitted messages, which differs for messages containing text, audio or video and for the same state of the elements of the communication system, the real quality assessment may differ communication, which reduces the accuracy of determining the state of the communication channel for the transmission of dissimilar messages, in addition, the current parameters of the equipment of the communication system are of a random nature, which is not taken into account in the prototype and in combination with the fact that different elements of the communication system can make different contributions to the performance assessment also reduces the accuracy of determining the state of the communication system.

The aim of the invention is to eliminate the disadvantages of the prototype.

The technical result of the invention is to improve the accuracy of determining the state of the transmission path of the communication channel.

и отправляют его в генератор тестовых сообщений, который в соответствии с выбранным типом тестового сообщения отправляет на вход передающего тракта канала связи тестовое информационное сообщение

, где

– тип тестового информационного сообщения,

– порядковый номер тестового информационного сообщения, при этом генератор тестовых сообщений также формирует информационный сигнал с идентификаторами тестового информационного сообщения

и отправляет его в блок хранения эталонных значений комплексного параметра состояния передающего трата канала связи, в блоки вычисления и хранения статистических характеристик и в блоки хранения коэффициентов нормирования, в передающем тракте канала связи тестовое информационное сообщение

проходит через его элементы и последовательно преобразуется в соответствии с передающим трактом канала связи, при этом блоки контроля параметров элементов передающего тракта канала связи вычисляют средние значения параметров контролируемых элементов передающего тракта канала связи –

, где

– порядковый номер блока контроля, и направляют их в соответствующие блоки вычисления отклонений измеряемых параметров, которые с учетом математического ожиданий

и дисперсий

контролируемых параметров для тестового информационного сообщения

и

блока контроля, поступающие из блоков вычисления и хранения статистических характеристик вычисляют

, после чего вычисленные значения отклонений измеряемых параметров

передают в соответствующие блоки нормировки отклонений измеряемых параметров, которые вычисляют нормированные значения отклонений измеряемых параметров

, где

– коэффициенты нормирования для

блока контроля

типа тестового информационного сообщения

, затем в сумматоре вычисляют значение комплексного параметра состояния передающего тракта канала связи

и передают его в блок сравнения, который производит его сравнение с эталонными значениями комплексного параметра состояния передающего тракта канала связи

и

для

типа тестового информационного сообщения

и передает результат сравнения на пользовательский интерфейс.The specified technical result of the invention is achieved due to the fact that a method for diagnosing a transmission channel of a communication channel, characterized by the fact that a test information message is generated and fed to the input of a transmission channel of a communication channel, the parameters of the elements of the transmission channel of a communication channel are read, after which the value of a parameter characterizing a technical the state of the transmitting path of the communication channel and compare the obtained value with the reference value, on the basis of which the estimate of the technical state of the communication channel is determined, characterized in that the type of test information message is initially selected on the user interface -

and send it to the generator of test messages, which, in accordance with the selected type of test message, sends a test information message to the input of the transmitting path of the communication channel

where

- type of test information message,

- serial number of the test information message, while the generator of test messages also generates an information signal with identifiers of the test information message

and sends it to the unit for storing the reference values of the complex parameter of the state of the transmitting waste communication channel, in the units for calculating and storing the statistical characteristics and in the units for storing the normalization coefficients, in the transmitting path of the communication channel test information message

passes through its elements and is sequentially transformed in accordance with the transmission path of the communication channel, while the blocks for monitoring the parameters of the elements of the transmission path of the communication channel calculate the average values of the parameters of the controlled elements of the transmission path of the communication channel -

where

- the serial number of the control unit, and send them to the corresponding units for calculating the deviations of the measured parameters, which, taking into account the mathematical expectations

and variances

monitored parameters for test information message

and

the control unit, coming from the units for calculating and storing statistical characteristics, calculate

, after which the calculated values of the deviations of the measured parameters

are transmitted to the corresponding blocks for normalizing the deviations of the measured parameters, which calculate the normalized values of the deviations of the measured parameters

where

Are the normalization factors for

control unit

type of test information message

, then the adder calculates the value of the complex parameter of the state of the transmission path of the communication channel

and transmit it to the comparison unit, which compares it with the reference values of the complex parameter of the state of the transmission path of the communication channel

and

for

type of test information message

and passes the comparison result to the user interface.

тестовых информационных сообщений для каждого типа

, при этом тип тестового информационного сообщения определяется видом передаваемой информации, например, меандр, меандр с изменяемой длительностью нулей и единиц, текст, аудио или видео.In particular, initially, in the test message generator, they save

test information messages for each type

, while the type of test information message is determined by the type of transmitted information, for example, meander, meander with variable duration of zeros and ones, text, audio or video.

для вычисления математических ожиданий

и дисперсий

контролируемых параметров, при этом блоки контроля параметров элементов передающего тракта канала связи вычисляют средние значения параметров контролируемых элементов передающего тракта канала связи –

и передают эти значения в блоки вычисления и хранения статистических характеристик.In particular, in a known good condition of the transmission path of the communication channel, test information messages are repeatedly transmitted sequentially

for calculating mathematical expectations

and variances

monitored parameters, while the blocks for monitoring the parameters of the elements of the transmission path of the communication channel calculate the average values of the parameters of the monitored elements of the transmission path of the communication channel -

and transmit these values to the units for calculating and storing statistical characteristics.

типа сообщения определяют коэффициенты нормирования

, которые учитывают вклад каждого элемента канала передающего тракта связи в общую оценку комплексного параметра состояния передающего тракта канала связи и сохраняют их в соответствующих блоках хранения коэффициентов нормирования.In particular, for the controlled elements of the transmission path of the communication channel, depending

the type of message is determined by the normalization factors

, which take into account the contribution of each element of the channel of the transmitting communication path to the overall estimate of the complex parameter of the state of the transmitting path of the communication channel and store them in the corresponding storage units of the normalization coefficients.

и

и сохраняют их в блоке хранения эталонных значений комплексного параметра состояния передающего тракта канала связи.In particular, for each message type, reference values of the complex parameter of the state of the transmission path of the communication channel are determined

and

and store them in the unit for storing the reference values of the complex parameter of the state of the transmission path of the communication channel.

находится в пределе от 0 до

, тогда блок сравнения передает на пользовательский интерфейс статус «передающий тракт канала связи работоспособен», если

находится в пределе от

до

, тогда блок сравнения передает на пользовательский интерфейс статус «передающий тракт канала связи в предотказовом состоянии» и если

больше

, тогда блок сравнения передает на пользовательский интерфейс статус «передающий тракт канала связи не работоспособен». In particular, if the measured value of the complex parameter of the state of the transmission path of the communication channel is

is in the range from 0 to

, then the comparison unit transmits to the user interface the status "transmitting path of the communication channel is operational" if

is in the limit from

before

, then the comparison unit transmits to the user interface the status "transmitting path of the communication channel in the pre-failure state" and if

more

, then the comparison unit transmits to the user interface the status “transmitting path of the communication channel is not operational”.

The specified technical result of the invention is achieved due to the fact that a device for diagnosing a transmission path of a communication channel, comprising a test message generator, the information output of which is configured to switch with the input of a transmission path of a communication channel, a unit for monitoring the parameters of the elements of a transmission path of a communication channel and a comparison unit, characterized in that it contains a set of blocks for monitoring the parameters of the elements of the transmission channel of the communication channel, which are configured to measure the average values of the parameters of the controlled elements of the transmission channel of the communication channel, each of which is connected in series with the unit for calculating the deviations of the measured parameters, the unit for normalizing the deviations of the measured parameters and the adder, the second information output of the generator of test messages is connected to the unit for storing the reference values of the complex parameter of the state of the transmitting path, units for calculating and storing statistical characteristics and units of storage normalization coefficients, while the outputs of the blocks for calculating and storing statistical characteristics are connected to the corresponding blocks for calculating the deviations of the measured parameters, and the outputs of the blocks for storing the normalization coefficients are connected to the corresponding blocks for normalizing the deviations of the measured parameters, the output of the adder and the block for storing the reference values of the complex parameter of the state of the transmitting communication path connected to the comparison unit, the output of which is connected to the user interface.

In particular, one of the blocks for monitoring the parameters of the elements of the transmission path of the communication channel is configured to calculate the average pulse duration for monitoring the encoder of the transmission path of the communication channel.

In particular, one of the units for monitoring the parameters of the elements of the transmission path of the communication channel is configured to calculate the average value of the reference frequency for monitoring the modulator of the transmission path of the communication channel.

In particular, one of the units for monitoring the parameters of the elements of the transmission channel of the communication channel is configured to calculate the average value of the gain for monitoring the amplifier of the transmission channel of the communication channel.

Brief description of the drawings.

Figure 1 shows a block diagram of a transmission path of a communication channel and a device for diagnosing its technical condition.

The figure indicates: 1 - source of information messages, 2 - encoder, 3 - modulator, 4 - output signal generation unit, 5 - signal amplifier, 6 - antenna-feeder device, 7 - test message generator, 8 - user interface, 9 - unit for calculating the average pulse duration, 10 - unit for calculating the average value of the reference frequency, 11 - unit for calculating the average value of the gain, 12 - units for calculating and storing statistical characteristics, 13 - units for calculating deviations of the measured parameters, 14 - units for storing normalization coefficients, 15 - blocks for normalizing deviations of measured parameters, 16 - adder, 17 - comparison block, 18 - block for storing reference values of the complex parameter of the state of the transmission path of the communication channel.

Implementation of the invention.

In one of the embodiments of the present invention, a device for diagnosing a transmission path of a communication channel is used in conjunction with a transmission path of a communication channel, which contains a serially connected source of information messages 1, an encoder 2, a modulator 3, an output signal generating unit 4, a signal amplifier 5 and an antenna-feeder device 6.

The information output of the test message generator 7 is also connected to the encoder 2, to the control input of which the user interface 8 is connected. The output of the encoder 2 is also connected to the unit for calculating the average pulse duration 9, the output of the modulator 3 is also connected to the unit for calculating the average value of the reference frequency 10, and the outputs the unit for generating the output signal 4 and the signal amplifier 5 are connected to the unit for calculating the average value of the gain 11.

The second information output of the test message generator 7 is connected to the units for calculating and storing statistical characteristics 12, which, in turn, are connected to the units for calculating the deviations of the measured parameters 14, while the output of the unit for calculating the average pulse duration 9, block calculating the average value of the reference frequency 10 and the unit for calculating the gain 11.

Also, the second information output of the test message generator 7 is connected to the units for storing the normalization coefficients 14, the outputs of which and the outputs of the units 13 are connected to the units for normalizing the deviations of the measured parameters 15.

The outputs of the blocks for normalizing the deviations of the measured parameters 15 are connected to the adder 16, the output of which is connected to the comparison unit 17, to which the output of the unit for storing the reference values of the complex parameter of the state of the transmission path of the communication channel 18 is also connected, to which the second output of the generator of test messages 7 is connected.

The output of the user interface 8 is connected to the generator of test messages 7 and to the source of information messages 1.

The operator panel of the transmission channel of the communication channel, a standard display or a display with a touch input can act as a user interface 8.

The output of the unit for calculating the average pulse duration 9, the unit for calculating the average value of the reference frequency 10 and the unit for calculating the average value of the gain 11 can be connected to the corresponding units for calculating and storing statistical characteristics 12.

тестовых информационных сообщений для каждого типа

, при этом тип тестового информационного сообщения определяется видом передаваемой информации, например, меандр, меандр с изменяемой длительностью нулей и единиц, текст, аудио или видео.To bring the device for diagnosing the transmission path of the communication channel to its initial state, initially in the generator of test messages 7, they save

test information messages for each type

, while the type of test information message is determined by the type of transmitted information, for example, meander, meander with variable duration of zeros and ones, text, audio or video.

из генератора тестовых сообщений 7 для вычисления математического ожидания

и дисперсии

значений контролируемых параметров, для чего блоки контроля параметров элементов передающего тракта канала связи 9, 10 и 11 вычисляют средние значения параметров контролируемых элементов передающего тракта канала связи и передают эти значения в блоки вычисления и хранения статистических характеристик 12.After that, in a known good condition of the transmission channel of the communication channel, test information messages are repeatedly transmitted sequentially

from test message generator 7 to calculate the mathematical expectation

and variance

values of the monitored parameters, for which the units for monitoring the parameters of the elements of the transmission channel of the communication channel 9, 10 and 11 calculate the average values of the parameters of the monitored elements of the transmission channel of the communication channel and transmit these values to the units for calculating and storing the statistical characteristics 12.

в зависимости от типов тестовых информационных сообщений и типов контролируемых элементов передающего тракта канала связи, с целью определения вклада каждого элемента канала передающего тракта связи в общую оценку комплексного параметра состояния передающего тракта канала связи.Then, before diagnosing the transmission path of the communication channel, the normalization coefficients are determined and stored in blocks 14

depending on the types of test information messages and the types of monitored elements of the transmission path of the communication channel, in order to determine the contribution of each element of the transmission path of the communication path to the overall assessment of the complex parameter of the state of the transmission path of the communication channel.

и

в зависимости от типа тестового информационного сообщения. In addition, before diagnosing the transmission path of the communication channel, the reference values of the complex parameter of the state of the transmission path of the communication channel are determined and stored in block 18

and

depending on the type of test information message.

The method for diagnosing the transmission path of the communication channel is implemented as follows.

Before the operator through the user interface 8 issues an information message generated in the source of information messages 1 to the transmitting channel of the communication channel, he makes the technical state of the transmitting channel of the communication channel to transmit the required message.

и отправляют его в генератор тестовых информационных сообщений 7, который в соответствии с выбранным типом тестового сообщения отправляет на вход передающего тракта канала связи

тестовое информационное сообщение

, где

– тип тестового информационного сообщения,

– порядковый номер тестового информационного сообщения, при этом генератор тестовых сообщений 7 также формирует второй информационный сигнал с идентификаторами тестового информационного сообщения

и отправляет его в блок хранения эталонных значений комплексного параметра состояния передающего трата канала связи 18, в блоки вычисления и хранения статистических характеристик 12 и в блоки хранения коэффициентов нормирования 14, в передающем тракте канала связи тестовое информационное сообщение

проходит через его элементы – кодер 2, модулятор 3, блок формирования выходного сигнала 4, усилитель сигнала 5 и антенно-фидерное устройство 6. For which the operator on the user interface selects the type of test information message -

and send it to the generator of test information messages 7, which, in accordance with the selected type of test message, sends it to the input of the transmitting path of the communication channel

test information message

where

- type of test information message,

- the serial number of the test information message, while the generator of test messages 7 also generates the second information signal with the identifiers of the test information message

and sends it to the unit for storing the reference values of the complex state parameter of the transmitting waste communication channel 18, in the units for calculating and storing the statistical characteristics 12 and in the units for storing the normalization coefficients 14, in the transmitting path of the communication channel test information message

passes through its elements - encoder 2, modulator 3, output signal shaping unit 4, signal amplifier 5 and antenna-feeder device 6.

блок 9 вычисляет среднюю длительность импульсов избыточной последовательности –

. The test information message in encoder 2 is converted into a redundant sequence in accordance with the received information coding algorithm, while during transmission of the test information message

block 9 calculates the average pulse duration of the redundant sequence -

...

.After that, the redundant sequence of symbols of the code combination is fed to the input of the modulator 3, at the output of which a harmonic oscillation is formed with certain parameters in accordance with the adopted modulation method, while block 10 calculates the average value of the reference frequency -

...

. From the output of the output signal shaping unit 4, the analog signal prepared for transmission via the physical communication line enters the input of the signal amplifier 5, from the output of which the radio signal is fed to the input of the antenna-feeder device 6, in which the radio signal of the test information sequence is fed to the antenna load equivalent (in the drawings not specified) and is not emitted on the air, while the signals from the input and output of amplifier 5 enter block 11, which calculates the average value of the gain -

...

.

и

в соответствующие блоки вычисления отклонений измеряемых параметров 13.After completion of the transmission of the test information message, the unit for calculating the average pulse duration 9, the unit for calculating the average value of the reference frequency 10 and the unit for calculating the average value of the gain 11 transmit the calculated average values

...

and

into the corresponding blocks for calculating the deviations of the measured parameters 13.

,

,

и передают их в блоки нормировки отклонений измеряемых параметров 15, при этом значения математического ожидания

и дисперсии

поступают в блоки 13 из соответствующих блоков вычисления и хранения статистических характеристик 12. In blocks 13, the values of the deviations of the measured parameters are calculated according to the following relationships:

,

,

and transfer them to the blocks for normalizing the deviations of the measured parameters 15, while the values of the mathematical expectation

and variance

come to blocks 13 from the corresponding blocks for calculating and storing statistical characteristics 12.

,

,

и передают их в сумматор 16, при этом значения

– коэффициенты нормирования для

блока контроля

типа тестового информационного сообщения

поступают в блоки 15 из соответствующих блоков хранения коэффициентов нормирования 14. In blocks 15, the deviations of the measured parameters are normalized according to the following relationships:

,

,

and transfer them to the adder 16, while the values

Are the normalization factors for

control unit

type of test information message

are supplied to blocks 15 from the corresponding storage blocks of the normalization coefficients 14.

и передают его в блок сравнения 17, который производит его сравнение с эталонными значениями комплексного параметра состояния передающего тракта канала связи

и

для

типа тестового информационного сообщения

и передает результат сравнения на пользовательский интерфейс 8, при этом значения

и

поступают в блок сравнения 17 из блока хранения эталонных значений комплексного параметра состояния передающего тракта канала связи 18.The adder 16 calculates the value of the complex parameter of the state of the transmission path of the communication channel according to the ratio

and transmit it to the comparison unit 17, which compares it with the reference values of the complex parameter of the state of the transmission path of the communication channel

and

for

type of test information message

and passes the result of the comparison to UI 8, with the values

and

come to the comparison unit 17 from the unit for storing the reference values of the complex parameter of the state of the transmission path of the communication channel 18.

находится в пределе от 0 до

, тогда блок сравнения 17 передает на пользовательский интерфейс 8 статус «передающий тракт канала связи работоспособен», после чего оператор отправляет в передающий тракт канала связи информационное сообщение.If the measured value of the complex parameter of the state of the transmission path of the communication channel is

is in the range from 0 to

, then the comparison unit 17 transmits to the user interface 8 the status "transmitting path of the communication channel is operational", after which the operator sends an information message to the transmitting path of the communication channel.

находится в пределе от

до

, тогда блок сравнения 17 передает на пользовательский интерфейс 8 статус «передающий тракт канала связи в предотказовом состоянии», после чего оператор может отправить сообщение, но затем ему необходимо будет выявить и устранить неисправности передающего тракта канала связи. If the measured value of the complex parameter of the state of the transmission path of the communication channel is in

is in the limit from

before

, then the comparison unit 17 transmits to the user interface 8 the status "transmitting path of the communication channel in the pre-failure state", after which the operator can send a message, but then he will need to identify and eliminate malfunctions of the transmitting path of the communication channel.

больше

, тогда блок сравнения 17 передает на пользовательский интерфейс 8 статус «передающий тракт канала связи не работоспособен» , после чего оператору надо будет выявить и устранить неисправности передающего тракта канала связи.If the measured value of the complex parameter of the state of the transmission path of the communication channel is

more

, then the comparison unit 17 transmits to the user interface 8 the status "transmitting path of the communication channel is not operational", after which the operator will need to identify and eliminate malfunctions of the transmitting path of the communication channel.

The above elements and blocks of the device for diagnosing the transmission path of the communication channel are fully characterized at the functional level and the described form of implementation assumes the use of logic elements or programmable (customizable) multifunctional means. Thus, these signs have a material essence and actions are carried out on material objects.

For this example of the implementation of the claimed technical solutions, the characteristics of the transmission path of the communication channel (the average pulse duration at the output of the channel encoder, the value of the reference frequency of the modulated oscillation and the value of the power amplification factor of the radio signal) are random values. Therefore, when evaluating them on the testing interval, estimates of these random variables are obtained. To evaluate the operability of the transmission channel of a communication channel, the technical characteristics of its main blocks are measured (the average value of the pulse duration at the output of the channel encoder, the average value of the reference frequency of the modulated oscillation and the average value of the power amplification factor of the radio signal). During the operation of the transmission channel of the communication channel, the measured values can change their values. In this case, for the correct operation of the communication channel, the deviation of the measured values from their average value should not exceed certain limits. If the deviations of the measured values of the specified technical characteristics approach the critical threshold, then it is necessary to carry out routine maintenance of the blocks of the transmitting path.

Diagnostics of the state of the transmission path of the communication channel is carried out using test sequences. There can be several types of test sequences depending on the type of transmitted information, for example, meander, meander with variable duration of zeros and ones, text, audio or video. Accordingly, the coefficients of normalization of the deviations of the measured parameters from their mean value, as well as the mathematical expectations and variances themselves, are calculated for each test sequence separately.

The normalization coefficients of the deviations of the measured parameters are introduced due to the unequal significance of the measured characteristics for the state of the transmission path of the communication channel.

Thus, the use of the above-described method and device for diagnosing the transmission channel of a communication channel will allow at the operation stage to more accurately monitor the dynamics of the monitored parameters, as well as to take timely measures to identify and prevent latent communication equipment failures, thereby achieving the claimed technical result of the invention.

Claims (10)

one. A method for diagnosing a transmission channel of a communication channel, characterized in that a test information message is generated and fed to the input of a transmission channel of a communication channel, the parameters of the elements of the transmission channel of a communication channel are read, after which the value of a parameter characterizing the technical state of the transmission channel of a communication channel is calculated, and the obtained value is compared with a reference, on the basis of which the assessment of the technical state of the communication channel is determined, characterized in that the type of test information message is initially selected on the user interface -

and send it to the generator of test messages, which, in accordance with the selected type of test message, sends a test information message to the input of the transmitting path of the communication channel

where

- type of test information message,

- serial number of the test information message, while the generator of test messages also generates an information signal with identifiers of the test information message

and sends it to the unit for storing the reference values of the complex parameter of the state of the transmission channel of the communication channel, in the units for calculating and storing the statistical characteristics and in the units for storing the normalization coefficients, in the transmitting channel of the communication channel test information message

passes through its elements and is sequentially transformed in accordance with the transmission path of the communication channel, while the blocks for monitoring the parameters of the elements of the transmission path of the communication channel calculate the average values of the parameters of the controlled elements of the transmission path of the communication channel -

where

- the serial number of the control unit, and send them to the corresponding units for calculating the deviations of the measured parameters, which, taking into account the mathematical expectations

and variances

monitored parameters for test information message

and

the control unit, coming from the units for calculating and storing statistical characteristics, calculate

, after which the calculated values of the deviations of the measured parameters

are transmitted to the corresponding blocks of normalization of the deviations of the measured parameters, which calculate the normalized values of the deviations of the measured parameters

where

Are the normalization factors for

control unit

type of test information message

, then the adder calculates the value of the complex parameter of the state of the transmission path of the communication channel

and transmit it to the comparison unit, which compares it with the reference values of the complex parameter of the state of the transmission path of the communication channel

and

for

type of test information message

and passes the comparison result to the user interface. 2. The method according to claim 1, characterized in that initially, in the test message generator,

test information messages for each type

, while the type of test information message is determined by the type of transmitted information, for example, meander, meander with variable duration of zeros and ones, text, audio or video. 3. The method according to claim 1, characterized in that, in a known good condition of the transmission path of the communication channel, test information messages are repeatedly transmitted sequentially

for calculating mathematical expectations

and variances

monitored parameters, while the blocks for monitoring the parameters of the elements of the transmission path of the communication channel calculate the average values of the parameters of the monitored elements of the transmission path of the communication channel -

and transmit these values to the units for calculating and storing statistical characteristics. 4. The method according to claim 1, characterized in that for the monitored elements of the transmission path of the communication channel, depending on

the type of message is determined by the normalization factors

, which take into account the contribution of each element of the channel of the transmitting communication path to the overall estimate of the complex parameter of the state of the transmitting path of the communication channel and store them in the corresponding storage units of the normalization coefficients. 5. The method according to claim 1, characterized in that for each type of messages, reference values of the complex parameter of the state of the transmission path of the communication channel are determined

and

and store them in the unit for storing the reference values of the complex parameter of the state of the transmission path of the communication channel. 6. The method according to claim 1, characterized in that if the measured value of the complex parameter of the state of the transmission path of the communication channel is

is in the range from 0 to

, then the comparison unit transmits to the user interface the status "transmitting path of the communication channel is operational" if

is in the limit from

before

, then the comparison unit transmits to the user interface the status "transmitting path of the communication channel in the pre-failure state", and if

more

, then the comparison unit transmits to the user interface the status “transmitting path of the communication channel is not operational”. 7. A device for diagnosing a transmission channel of a communication channel, containing a test message generator, the information output of which is configured to switch with the input of a transmission channel of a communication channel, a unit for monitoring parameters of the elements of a transmission channel of a communication channel and a comparison unit, characterized in that it contains a set of units for monitoring parameters elements of the transmission channel of the communication channel, which are made with the possibility of measuring the average values of the parameters of the monitored elements of the transmission channel of the communication channel, each of which is connected in series with the unit for calculating the deviations of the measured parameters, the unit for normalizing the deviations of the measured parameters and the adder, the second information output of the test message generator is connected to the unit storage of reference values of the complex parameter of the state of the transmission path, blocks for calculating and storing statistical characteristics and blocks for storing normalization coefficients, while the outputs of calculating blocks and xp The statistical characteristics are connected to the corresponding blocks for calculating the deviations of the measured parameters, and the outputs of the blocks for storing the normalization coefficients are connected to the corresponding blocks for the normalization of the deviations of the measured parameters, the outputs of the adder and the block for storing the reference values of the complex parameter of the state of the transmitting communication path are connected to the comparison unit, the output of which is connected to the user interface. 8. The device according to claim. 7, characterized in that one of the blocks for monitoring the parameters of the elements of the transmission path of the communication channel is configured to calculate the average pulse duration to control the encoder of the transmission path of the communication channel. 9. The device according to claim. 7, characterized in that one of the units for monitoring the parameters of the elements of the transmission channel of the communication channel is configured to calculate the average value of the reference frequency to control the modulator of the transmission channel of the communication channel. 10. The device according to claim. 7, characterized in that one of the units for monitoring the parameters of the elements of the transmission channel of the communication channel is configured to calculate the average value of the gain for monitoring the amplifier of the transmission channel of the communication channel.

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