RU2685030C2 - Method of estimating efficiency of data exchange of communication system - Google Patents

Abstract

FIELD: electrical communication engineering.SUBSTANCE: invention relates to electrical communication. Method of assessing the efficiency of information exchange of a communication system includes: determining the information transmission efficiency of a communication system and evaluating its information efficiency, calculating the change value of input traffic through a selected time interval with respect to the input traffic, at which the value of the information transmission efficiency of the communication system was determined, determination of its module and comparison with threshold, in case of threshold exceeding, at current value of input traffic, repeated determination of efficiency of information transfer of communication system, as well as evaluation of efficiency of information exchange of the communication system based on results of two measurements of efficiency.EFFECT: high accuracy of estimating efficiency of information exchange of a communication system by using repeatedly determined efficiency of transmitting information of a communication system.1 cl, 2 dwg

Description

The invention relates to telecommunications, in particular to methods for evaluating the effectiveness of information exchange (information efficiency) of communication systems. It can be used to create new and improve existing communication channels, switching nodes, automated control systems, local computer networks, communication networks with message switching, communication networks with packet switching, including fast packet switching.

The closest to the technical nature of the claimed invention is a method of evaluating the information efficiency of the communication system (patent RU 2477928, IPC H04L 29/00, 20.03.2013. Bull. No. 8), based on the measurement: the average for a selected time interval of the total number in the system communication information in the block of storage devices and in the block of information transfer devices, as well as the average performance of the communication system for the same time interval; calculating the cybernetic power (KW) of the communication system, as well as measuring: the capacities of the buffers of the storage unit and the capacity of the communication channels of the information transmission unit; calculating the total cybernetic power of the communication system (KW _full ) and taking into account the obtained results of determining the efficiency of information transfer of the communication system:

,

,

- кибернетическая мощность системы связи; N - измеренное количество информационных сообщений в системе связи; G - измеренная производительность системы связи; Т - выбранный временной интервал усреднения;

- полная кибернетическая мощность системы связи; N_i - измеренные емкости каждого буфера блока запоминающих устройств;

- измеренные суммарные пропускные способности каналов связи блока устройств передачи информации для каждого элемента блока запоминающих устройств; n - количество буферов блока запоминающих устройств; s - число каналов связи блока устройств передачи информации, для обслуживания каждого i-го буфера блока запоминающих устройств.Where

- cybernetic power of the communication system; N is the measured number of informational messages in the communication system; G is the measured performance of the communication system; T is the selected time interval of averaging;

- total cybernetic power of the communication system; N _i - the measured capacity of each buffer block storage devices;

- measured total bandwidths of communication channels of a block of information transfer devices for each element of a block of storage devices; n is the number of buffers of the storage unit; s is the number of communication channels of the information transfer unit for servicing each i-th buffer of the storage unit.

The disadvantage of the prototype is the low accuracy of the evaluation of the information efficiency of the communication system when the input traffic changes.

The technical result of the proposed method is to improve the accuracy of assessing the effectiveness of information exchange of the communication system when the input traffic changes by determining the speed and direction of change of the information efficiency of the communication system, as well as the mode of operation of the communication system in the sense of information exchange.

This technical result is achieved by the fact that in a method for evaluating the efficiency of information exchange of a communication system based on determining the efficiency of information transfer of a communication system and evaluating its information efficiency, according to the invention, after a selected time interval, calculate the amount of change in input traffic relative to the input traffic for which the value of the efficiency of information transmission of the communication system is determined, its module is determined and compared with the threshold, in case of its exceeding the threshold, at the current input value Foot traffic re-determine the efficiency of the communication system transmission of information and evaluate the effectiveness of information exchange communication system produced from the two measurement efficiency.

The essence of the invention lies in the fact that after a selected time interval, the magnitude of the change in input traffic is calculated relative to the input traffic, at which the transmission efficiency of the information of the communication system was determined, its module is determined and compared with the threshold, if it exceeds the threshold, at the current input value Traffic re-determine the efficiency of information transfer of the communication system, and the assessment of the effectiveness of information exchange of the communication system is made according to the results of two measurements of efficiency.

The invention is illustrated as follows. It is known [Mezhuev A.M., Pasechnikov I.I. The determination of the bandwidth of the information network for the input traffic based on the use of the value of its cybernetic power. - Voronezh: Vestnik VI FSIN, No. 3, 2016. — pp. 22-27] that when the intensity of the input traffic changes, the values of cybernetic power and, as a result, the efficiency of information transmission of the communication system change. So in fig. 2 p. 25 of this article shows the efficiency dependence on the input traffic intensity, from which one can see the effective work of the information network only in a given band, which can be used, for example, to refine the assessment of the efficiency of information exchange of a communication system when input traffic changes (figure 1). The article Mezhueva A.M., Pasechnikov I.I. "The tangent of the bandwidth efficiency angle in solving the problem of assessing the quality of the information network" [Tambov: Bulletin of Tambov University, vol. 21, no. 6, 2016. - p. 2340-2346], it is shown that repeated measurements of information transfer efficiency provide a determination of the speed and direction of change in the information efficiency of a communication system when input traffic changes, as well as modes of operation of a communication system in the sense of information exchange, for example, by calculating the increments of the input traffic, the efficiency of information transfer and the derivative efficiency (tangent of the bandwidth efficiency). The task of selecting a threshold for the magnitude of the change in input traffic can be solved similarly to the problem of selecting the increment step of the input traffic when evaluating the effectiveness of information exchange of a communication system, which is solved, for example, in the book Mezhuyev A.M. Tensor methods in the theory of information efficiency assessment and analysis of elements of digital radio networks (monograph) [Tambov: Integration, 2008 - P. 144-148]. The article by Mezhuyev A.M. “Joint solution of algorithmic and structural adaptation problems in infocommunication systems” [S.-Pb .: High-tech technologies in Earth space research, T. 7, No. 6, 2015. p. 36-43] based on the analysis of the direction of increment of information transmission efficiency the effectiveness of the information exchange of the communication system is assessed, and the possibility of determining the main modes of operation of the system in the sense of information exchange is noted. Thus, determining two values of the transmission efficiency of a communication system with calculating the magnitude of changes in input traffic improves the accuracy of assessing the effectiveness of information exchange of a communication system by determining the speed and direction of a change in information efficiency, as well as evaluating the mode of operation of a communication system in the sense of information exchange.

This achieves the technical result indicated in the invention.

A method for evaluating the effectiveness of information exchange of a communication system can be implemented as follows. The determination of the efficiency of information transfer of the communication system η is carried out according to the well-known prototype of the method [patent RU No. 2477928, H04L 29/00, 03.20.2013 Byul. №8]. The first value of the transmission efficiency of the communication system η ₁ and the first value of the input traffic γ _{in 1} (at which η _{1 is} calculated) is remembered, for example, by means of a random access memory. Then, for example, at a selected time interval determined by the conditions of information exchange in the communication system [Pasechnikov I.I. Methodology of analysis and synthesis of extremely loaded information networks: Monograph. - M .: Mashinostroenie - 1, 2004. - p. 136-141] measure the second (current) value of the input traffic γ _{in 2} and find the magnitude of the change in the input traffic

for example, using a subtractor. Find the modulus of the obtained value of Δγ _I and compare it with the threshold value, for example, using the comparison circuit

where N _kan is the number of communication channels of the information transmission unit of the communication system, Δγ _{I min} is the minimum increment of the input traffic intensity in each communication channel equal to 1 packet / s [Mezhuyev AM Tensor methods in the theory of information efficiency assessment and analysis of digital radio network elements (monograph ). - Tambov: Integration, 2008 - p. 144-148].

, то вычисляют значение КПД передачи информации системы связи η₂ и оценивают эффективность информационного обмена системы связи по результатам двух измерений КПД. В противном случае, если

измерение γ_{вх 2} и вычисления повторяют через выбранный интервал времени.If

, then the value of the transmission efficiency of the communication system information η _{2 is} calculated and the efficiency of the information exchange of the communication system is estimated from the results of two efficiency measurements. Otherwise, if

measurement of γ _{in 2} and the calculation is repeated at a selected time interval.

Evaluation of the effectiveness of information exchange of a communication system can be performed, for example, according to the method described in [Mezhuyev A.M., Pasechnikov I.I. “The tangent of the bandwidth efficiency angle in solving the problem of assessing the quality of the information network” Tambov: Bulletin of the Tambov University, volume 21, no. 6, 2016. - p. 2340-2346]. To do this, for example, using a subtracting device, find the increment of the efficiency of information transfer of the communication system

Next, by performing the operation of dividing Δη by Δγ _I , for example, using a divider, determine the tangent of the angle of inclination of the band efficiency of the communication system

the values of which estimate the speed (parameter value), and the direction (parameter sign) of the change in the information efficiency of the communication system.

и сравнивают его, например, в схеме сравнения, с пороговым уровнем Δη_доп=0,1%, который определяется системно-техническими характеристиками системы связи для конкретных условий информационного обмена [Межуев A.M. Интервальная оценка качества информационного обмена в цифровых радиосетях. - Воронеж: Вестник ВИ ФСИН, №2, 2015. - С. 21-26]. В случае, если значение

принимают решение, что система связи работает в оптимальном режиме информационного обмена и выводят данную информацию, например, с помощью блока индикации. Противном случае

, сравнивают, например, в схеме сравнения, полученное значение tgα с пороговым уровнем 0. Если tgα>0, то принимают решение, что система связи работает в недонапряженном режиме информационного обмена, а если tgα<0, то принимают решение, что система связи работает в перенапряженном режиме информационного обмена и выводят данную информацию, например, с помощью блока индикации.Then assess the mode of operation of the communication system in the sense of information exchange. What is determined

and compared, for example, in a comparison circuit with a threshold level _additional Δη = 0.1%, which is defined system-technical characteristics communications system for information exchange specific conditions [Mezhuev AM Interval estimation quality information exchange in digital radio networks. - Voronezh: Vestnik VI FSIN, №2, 2015. - P. 21-26]. In case the value

decide that the communication system operates in the optimal mode of information exchange and display this information, for example, using the display unit. Otherwise

, compare, for example, in the comparison scheme, the obtained value of tgα with a threshold level of 0. If tgα> 0, it is decided that the communication system works in an understressed information exchange mode, and if tgα <0, then it is decided that the communication system works in the overstressed mode of information exchange and display this information, for example, using the display unit.

All of the above operations of computation and writing, can be implemented, for example, using microcontrollers [Belov A.V. Tutorial device developer on AVR microcontrollers. - S.-Pb .: Science and Technology, 2008. - 544 p.].

The difference between the proposed method and the prototype is that it provides an assessment of the information efficiency of the communication system by determining the speed and direction of change in the information efficiency of the communication system, as well as the mode of operation of the communication system in the sense of information exchange when the input traffic changes. This allows you to judge the quality of the communication system from the point of view of the information exchange conditions for incoming traffic, and can also be used to determine the maximum area of the information efficiency function when solving adaptation problems [Mezhuyev A.M. Joint solution of algorithmic and structural adaptation problems in information and communication systems. - S.-Pb .: High technologies in space research of the Earth, vol. 7, no. 6, 2015. p. 36-43], which further confirms the practical significance of the proposed method. In addition, the invention can be used to assess the degree of stability of a communication system to changes in the intensity of input traffic under high load conditions and a comparative assessment of the stability of information exchange between different communication systems in the same interval of changes in input traffic (figure 2).

The proof of the technical feasibility of a method for evaluating the effectiveness of information exchange of a communication system is that its implementation requires standard elements of microelectronics, existing measuring and computing equipment, as well as software, which is based on elementary mathematical operations.

Claims (1)

A method of evaluating the effectiveness of information exchange of a communication system based on determining the efficiency of information transfer of a communication system and evaluating its information efficiency, characterized in that, at a selected time interval, the change in input traffic is calculated relative to the input traffic at which the value of information transmission efficiency of a communication system was determined , it is determined by the module and compared with the threshold, if it exceeds the threshold, with the current value of the input traffic re-determine the efficiency of information transfer and communication systems, and an assessment of the effectiveness of information exchange of a communication system is made according to the results of two efficiency measurements.

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