Research Article
Elastic Call Admission Control Using Fuzzy Logic in Virtualized Cloud Radio Base Stations
@INPROCEEDINGS{10.1007/978-3-319-25479-1_27, author={Tshiamo Sigwele and Prashant Pillai and Yim Hu}, title={Elastic Call Admission Control Using Fuzzy Logic in Virtualized Cloud Radio Base Stations}, proceedings={Wireless and Satellite Systems. 7th International Conference, WiSATS 2015 Bradford, UK, July 6--7, 2015, Revised Selected Papers}, proceedings_a={WISATS}, year={2015}, month={10}, keywords={Qos CAC C-RAN Cloud computing Fuzzy Logic Virtualization}, doi={10.1007/978-3-319-25479-1_27} }- Tshiamo Sigwele
Prashant Pillai
Yim Hu
Year: 2015
Elastic Call Admission Control Using Fuzzy Logic in Virtualized Cloud Radio Base Stations
WISATS
Springer
DOI: 10.1007/978-3-319-25479-1_27
Abstract
Conventional Call Admission Control (CAC) schemes are based on stand-alone Radio Access Networks (RAN) Base Station (BS) architectures which have their independent and fixed spectral and computing resources, which are not shared with other BSs to address their varied traffic needs, causing poor resource utilization, and high call blocking and dropping probabilities. It is envisaged that in future communication systems like 5G, Cloud RAN (C-RAN) will be adopted in order to share this spectrum and computing resources between BSs in order to further improve the Quality of Service (QoS) and network utilization. In this paper, an intelligent Elastic CAC scheme using Fuzzy Logic in C-RAN is proposed. In the proposed scheme, the BS resources are consolidated to the cloud using virtualization technology and dynamically provisioned using the elasticity concept of cloud computing in accordance to traffic demands. Simulations shows that the proposed CAC algorithm has high call acceptance rate compared to conventional CAC.