Artificial Intelligence-Based Techniques for Emerging Heterogeneous Network: State of the Arts, Opportunities, and Challenges

Recently, mobile networking systems have been designed with more complexity of infrastructure and higher diversity of associated devices and resources, as well as more dynamical formations of networks, due to the fast development of current Internet and mobile communication industry. In such emergin...

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Veröffentlicht in:	IEEE access 2015, Vol.3, p.1379-1391
Hauptverfasser:	Xiaofei Wang, Xiuhua Li, Leung, Victor C. M.
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Sprache:	eng
Schlagworte:	Algorithms Ant Colony Optimization Artificial Intelligence Artificial neural networks Biological system modeling Complex systems Complexity Complexity theory Evolution Fuzzy logic Genetic Algorithms Heterogeneous Networks Infrastructure Machine learning Mobile communication Mobile communication systems Neural networks Optimization Resource management Self-Organization Networks Taxonomy Wireless networks
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description	Recently, mobile networking systems have been designed with more complexity of infrastructure and higher diversity of associated devices and resources, as well as more dynamical formations of networks, due to the fast development of current Internet and mobile communication industry. In such emerging mobile heterogeneous networks (HetNets), there are a large number of technical challenges focusing on the efficient organization, management, maintenance, and optimization, over the complicated system resources. In particular, HetNets have attracted great interest from academia and industry in deploying more effective solutions based on artificial intelligence (AI) techniques, e.g., machine learning, bio-inspired algorithms, fuzzy neural network, and so on, because AI techniques can naturally handle the problems of large-scale complex systems, such as HetNets towards more intelligent and automatic-evolving ones. In this paper, we discuss the state-of-the-art AI-based techniques for evolving the smarter HetNets infrastructure and systems, focusing on the research issues of self-configuration, self-healing, and self-optimization, respectively. A detailed taxonomy of the related AI-based techniques of HetNets is also shown by discussing the pros and cons for various AI-based techniques for different problems in HetNets. Opening research issues and pending challenges are concluded as well, which can provide guidelines for future research work.
doi_str_mv	10.1109/ACCESS.2015.2467174
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In particular, HetNets have attracted great interest from academia and industry in deploying more effective solutions based on artificial intelligence (AI) techniques, e.g., machine learning, bio-inspired algorithms, fuzzy neural network, and so on, because AI techniques can naturally handle the problems of large-scale complex systems, such as HetNets towards more intelligent and automatic-evolving ones. In this paper, we discuss the state-of-the-art AI-based techniques for evolving the smarter HetNets infrastructure and systems, focusing on the research issues of self-configuration, self-healing, and self-optimization, respectively. A detailed taxonomy of the related AI-based techniques of HetNets is also shown by discussing the pros and cons for various AI-based techniques for different problems in HetNets. 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subjects	Algorithms Ant Colony Optimization Artificial Intelligence Artificial neural networks Biological system modeling Complex systems Complexity Complexity theory Evolution Fuzzy logic Genetic Algorithms Heterogeneous Networks Infrastructure Machine learning Mobile communication Mobile communication systems Neural networks Optimization Resource management Self-Organization Networks Taxonomy Wireless networks
title	Artificial Intelligence-Based Techniques for Emerging Heterogeneous Network: State of the Arts, Opportunities, and Challenges
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