Agent based autonomic network control and management

Abstract

Future wireless and Internet paradigm are envisioned to be more intelligent, adaptive, recovering from transient faults and problems without service interruption, and continuously optimizing the use of resources. In this work, we present an agent-based network control and management framework that enables domain-based dynamic policy formulation. The article discusses the proposed architecture that adapts the hierarchical interactions in the typical telecommunication chain in defining different types of cognitive agents running on specific network elements for realizing the end-to-end goals. We also discuss the communication model, different behaviors of the proposed framework, the developed software tools, and the experimental demonstrator that we developed for realizing this framework. We believe that the proposed framework can meet the requirements of adaptability, self-x functionalities, and sustainability. The paper also provide details on how the proposed framework may be applied for a representative case-study. The performance of the proposed approach is evaluated for different criteria and results are discussed.

@INPROCEEDINGS{6554807, 
author={Manzoor Ahmed Khan , Fikret Sivrikaya}, 
booktitle={Wireless Communications and Networking Conference (WCNC), 2013 IEEE}, 
title={Agent based autonomic network control and management}, 
year={2013}, 
pages={1627-1632}, 
keywords={3G mobile communication;Internet;Long Term Evolution;multi-agent systems;telecommunication control;telecommunication network management;LTE;Long Term Evolution;UMTS;agent based autonomic network control;cognitive agents;communication model;domain based dynamic policy formulation;future Internet paradigm;management framework;self-x functionality;service interruption;software tools;transient faults;Computer architecture;Context;Linear programming;Load management;Ontologies;Protocols;Resource management}, 
doi={10.1109/WCNC.2013.6554807}, 
ISSN={1525-3511},}
Authors:
Manzoor Ahmed Khan, Fikret Sivrikaya
Category:
Conference Paper
Year:
2013
Location:
IEEE Wireless Communications and Networking Conference (IEEE WCNC)