RU2700545C1 - Method for intelligent probe control of info-communication networks in conditions of considerable destructive changes - Google Patents

Abstract

FIELD: information technology.

SUBSTANCE: invention relates to information technologies and can be used in info-communication networks. For this purpose periodically, two "waves" of intelligent probes are transmitted periodically from specific information-communication network node of special purpose: search and answering probes. Proposed method of intelligent probe control is used in conditions of intensive actions with significant destructive changes in info-communication networks. Search wave of intelligent probes, which when a request for emergency control is received, is translated by all nodes of the level network, serves to find the incoming destination node, which ensures the service of the request.

EFFECT: high stability of functioning of info-communication networks under conditions of moderate and considerable destructive changes in a network.

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Description

The invention relates to the field of information technology and can be used in infocommunication networks.

The technical problem solved by the proposed method when building information and communication networks is that in the case of significant destructive changes (failure of network nodes and communication lines as a result of physical exposure to them or the influence of malicious software leading to equipment failure), direct control methods in infocommunication networks do not provide the required quality of their functioning.

A known method for televoting in an intelligent network, the technical result of which is uninterrupted televoting in conditions with several operating service control points [1]. However, the use of this method does not allow to optimize the time spent on obtaining information about destructive changes in infocommunication networks.

There is also a method of providing call processing for a user of an intelligent network [2], which includes the following steps. The first service switching point evaluates whether the traffic between the network node and the service control point is abnormal. If the traffic is normal, an intelligent call connection is established, thereby preventing excessive workload on the service control point. Using this method does not provide for reducing the time spent on information about destructive changes in infocommunication networks.

The developed method of intelligent probe control is used in conditions of significant destructive changes in infocommunication networks and consists in the fact that periodically after a certain time the search and response waves of smart probes are transmitted from the control point of the infocommunication network: the search wave of smart probes is transmitted by all network nodes and serves to find the incoming destination node that provides service for the incoming emergency management claim Bids received, and response wave of smart probes, of which have come before the other fixed initiator node distribution and demonstrate the feasibility and the best way to get the required services.

The search wave of intelligent probes, which, when an emergency management application is received, is broadcast by all nodes of the infocommunication network, serves to find the incoming destination node, which provides service for the incoming request.

In this case, the same delay of the waves of smart probes in each node is assumed, and the search wave of the smart probe propagates through the network in stages, as shown in FIG. one.

In the memory of the control point of the infocommunication network (network server), only that wave of the intellectual probe that arrived earlier than the others is recorded. With the simultaneous arrival of waves of intelligent probes from two or more directions, one of them is recorded either by a random selection procedure or based on actual local information.

In addition to greater information content, the method of intelligent probe control differs from the search-wave control method in that in this case there is no phase of formation of the final wave of the probes after receiving the response waves of the probes.

Thus, the first wave of intelligent probes that arrived at the control point of the infocommunication network (aka the initiator of the distribution), shows the possibility, optimal path and assessment of the completeness of the required services of the corresponding level.

The achieved technical result of the invention is to improve the stability of the functioning of infocommunication networks in the conditions of moderate and significant destructive changes in the network.

The novelty of the invention lies in a new approach to the formation of intelligent probe control of infocommunication networks under conditions of significant destructive effects.

The inventive step is characterized by the application of the previously known mathematical apparatus of mathematical statistics and system analysis to solving problems of intelligent probe control.

Industrial applicability - this invention is industrially applicable in the development of promising infocommunication networks.

Evaluation of the quality of service for users of infocommunication networks when organizing management based on the relief method and the developed method of intelligent probe control in the face of significant destructive changes was carried out by conducting an experiment.

Qualitative indicators of infocommunication networks under control based on the method of reliefs under the conditions of intense information impacts depending on the significance of destructive changes are shown in FIG. 2 (a and b).

The experiments confirm that the qualitative indicators of the functioning of infocommunication networks under intense impacts during control based on the use of the intelligent probe control method (Fig. 3) are significantly higher than when applying control based on relief methods.

The frequency of sending waves of intelligent probes in a certain way affects the effectiveness of emergency management of information and communication networks. At the same time, sending waves of intelligent probes too often significantly loads the resources of infocommunication networks, which are already reduced under intense impacts. Obviously, there are no formal ways to resolve this contradiction; therefore, the compromise value of the periodicity of sending smart probes is selected based on the analysis of simulation results and is adjusted during the operation of information and communication networks in various conditions.

Sources of information adopted in the preparation of the description and claims:

1. Mika Pyukyaliste. Method and device for televoting in an intelligent network. Patent No. 97118683/09, 04/12/1996

2. Li Shiqian, Yan Tianjun. A method of providing call processing for a user of an intelligent network. Patent No. 2007140674/09, 12/09/2005

Claims (1)

The method of intelligent probe control of infocommunication networks in the conditions of their significant destructive changes, which consists in the formation and transmission from the control point of the infocommunication network of waves of search probes that propagate through the network in stages and are recorded in the memory of the control center of the infocommunication network, and characterized in that periodically from each node of the information and communication network, the search and response waves of smart probes are transmitted: the search wave of smart probes trans is merged by all nodes of the network and serves to find the incoming destination node, which provides service for the incoming emergency control requirements according to the received application, and the response waves of intelligent probes, from which the earlier ones are detected by the sending initiating node and show the possibility and optimal way to receive the required services, and with the simultaneous arrival of waves of intelligent probes from two or more directions, one of them is fixed: either by random selection procedure, or by Nowe information on the frequency of sending waves of intelligent search probe and the frequency itself is based on the analysis of simulation results and adjusted during operation info-communication networks in a variety of conditions.

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