Automated Inference System for End-To-End Diagnosis of Network Performance Issues in Client-Terminal Devices
Traditional network diagnosis methods of Client-Terminal Device (CTD) problems tend to be laborintensive, time consuming, and contribute to increased customer dissatisfaction. In this paper, we propose an automated solution for rapidly diagnose the root causes of network performance issues in CTD. B...
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creator | Widanapathirana, Chathuranga Y Ahmet \c{S}ekercioǧlu Ivanovich, Milosh V Fitzpatrick, Paul G Li, Jonathan C |
description | Traditional network diagnosis methods of Client-Terminal Device (CTD) problems tend to be laborintensive, time consuming, and contribute to increased customer dissatisfaction. In this paper, we propose an automated solution for rapidly diagnose the root causes of network performance issues in CTD. Based on a new intelligent inference technique, we create the Intelligent Automated Client Diagnostic (IACD) system, which only relies on collection of Transmission Control Protocol (TCP) packet traces. Using soft-margin Support Vector Machine (SVM) classifiers, the system (i) distinguishes link problems from client problems and (ii) identifies characteristics unique to the specific fault to report the root cause. The modular design of the system enables support for new access link and fault types. Experimental evaluation demonstrated the capability of the IACD system to distinguish between faulty and healthy links and to diagnose the client faults with 98% accuracy. The system can perform fault diagnosis independent of the user's specific TCP implementation, enabling diagnosis of diverse range of client devices |
doi_str_mv | 10.48550/arxiv.1207.3869 |
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In this paper, we propose an automated solution for rapidly diagnose the root causes of network performance issues in CTD. Based on a new intelligent inference technique, we create the Intelligent Automated Client Diagnostic (IACD) system, which only relies on collection of Transmission Control Protocol (TCP) packet traces. Using soft-margin Support Vector Machine (SVM) classifiers, the system (i) distinguishes link problems from client problems and (ii) identifies characteristics unique to the specific fault to report the root cause. The modular design of the system enables support for new access link and fault types. Experimental evaluation demonstrated the capability of the IACD system to distinguish between faulty and healthy links and to diagnose the client faults with 98% accuracy. 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subjects | Automation Computer Science - Artificial Intelligence Computer Science - Networking and Internet Architecture Computer Science - Performance Diagnostic systems Electronic devices Fault diagnosis Inference Modular design Modular systems Root cause analysis Support vector machines TCP (protocol) |
title | Automated Inference System for End-To-End Diagnosis of Network Performance Issues in Client-Terminal Devices |
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