Abstract
This paper presents a computational method based on non-classical logic dedicated to routing management and information stream control in communication networks. Paraconsistent logic (PL) was used to create an algorithmic structure whose main property is to accept contradiction. Moreover, a computational structure, the denominated paraconsistent data analyzer (PDAPAL2v), was constructed to perform routing management in communication networks. Direct comparisons of PDAPAL2v with a classical logic system that simulates routing conditions were made in the laboratory. In the conventional system, the paraconsistent algorithms were considered as binary logic gates, and in the tests, the same adjustment limits of PDAPAL2v were applied. Using a database with controlled insertion of noise, we obtained an efficacy of 97% in the detection of deteriorated packets with PDAPAL2v and 72% with the conventional simulation system. Functional tests were carried out, showing that PDAPAL2v is able to assess the conditions and degradation of links and perform the analysis and correlation of various inputs and variables, even if the signals have contradictory values. From practical tests in the laboratory, the proposed method represents a new way of managing and controlling communication network routes with good performance.
Highlights
An organization’s communication network is defined through the pattern of contacts between members of the organization and the flow of information between them [1]
We show below the results obtained in the tests carried out with PADPAL2v in the sim5u.1l.aDtiiornecst CwoimthpatrhaetivoebTjescttsivReesoufltscomparison and to demonstrate its functionality in data analysisSeinvetrhael smimaunlaagtieomnsewnteroef ccaormriemduonuitcafotirocnomneptawriosorknsrouusitnegs.a database with randomly inserted noises in the five sources of information
We pinpoint the results obtained with a noise insertion of 10%, in which we obtained efficacy up to 97% in detecting dcleats5es.r2iic.oaFrTluahantelcegtdiPooDnrpiaAtalhPcTAmkeLs2esvtts.sfRuwnescuittilhtosnPalDtAesPtAs Lw2veraencdar7ri2e%d with out in the conventional system built a pilot communication network with where the objective was the analysis of degradation in the main route
Summary
An organization’s communication network is defined through the pattern of contacts between members of the organization and the flow of information between them [1]. The management system’s main activity is monitoring and controlling network elements (physical or logical) on a continuous basis and ensuring that a certain level of service always exists within certain limits. Modern communication networks are becoming increasingly wide and heterogeneous due to a growing set of wireless and wired devices and services. This condition has brought about the need for interaction between numerous interconnected components, and this new design of information signal flow presents a challenge for communication engineering [5,6]
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